CN115364945B - Incinerator residue recycling equipment - Google Patents

Abstract

The invention belongs to the technical field of incinerator residue recovery equipment, and particularly relates to incinerator residue recovery processing equipment, which aims to solve the technical problem that no method is available for screening crushed incinerator residues. The device comprises a crushing assembly, a carrying assembly, a screening assembly, a circulating assembly and a power assembly, wherein the other end of the circulating assembly is arranged on the crushing assembly, the power assembly is connected with the crushing assembly, the carrying assembly and the circulating assembly at the same time, and the crushing of residues generated in the incinerator is realized through the crushing assembly; the carrying assembly is convenient to carry the crushed incinerator residues, so that the crushed incinerator residues flow into the screening assembly; the screening assembly is convenient to screen the crushed incinerator residues, and the individual specification of the screened qualified incinerator residues is adjusted according to actual conditions, so that further secondary treatment such as burial is convenient.

Description

Incinerator residue recycling equipment

Technical Field

The invention belongs to the technical field of incinerator residue recovery equipment, and particularly relates to incinerator residue recovery processing equipment.

Background

In the acid industry, incinerators are a common raw material treatment equipment, and the incinerators are prone to produce residues in the raw material treatment process, and the residues are generally buried directly.

An incinerator for treating refined distillation residues, which comprises a furnace body, wherein a furnace cover is arranged on a threaded cover at the upper end of the furnace body, a slag inlet hopper is fixedly arranged on one side of the upper surface of the furnace cover in a communicating manner, an exhaust fan is fixedly arranged at the other end of the upper surface of the furnace cover, a mounting shell is fixedly arranged in the middle of the upper surface of the furnace cover, a first motor is fixedly arranged in the mounting shell, a rotating shaft is fixedly arranged at the lower end of the control output of the first motor, the rotating shaft penetrates through the furnace cover and extends downwards, stirring blades are fixedly arranged at the end part of the rotating shaft extending to the inner side of the furnace body, a containing disc is fixedly arranged in the furnace body, the stirring blades are positioned above the containing disc, a fixing shell is fixedly arranged at the bottom of the furnace body, but the disadvantage of the technical scheme is that no method is adopted for sieving the crushed incinerator residues,

disclosure of Invention

The invention aims to provide incinerator residue recycling equipment so as to solve the technical problem that no method is available for screening crushed incinerator residues.

In order to achieve the above purpose, the specific technical scheme of the incinerator residue recycling equipment provided by the invention is as follows:

the utility model provides an incinerator residue recovery processing equipment, includes crushing subassembly, still includes carrier assembly, screening subassembly, circulation subassembly and power pack, crushing subassembly installs on carrier assembly, and screening subassembly installs on carrier assembly, and circulation subassembly's one end is installed on carrier assembly, and circulation subassembly's the other end is installed on crushing subassembly, and power pack is connected with crushing subassembly, carrier assembly and circulation subassembly simultaneously.

Further, smash the subassembly and include crushing frame, pan feeding frame, intercommunicating pore, frame link, smash pivot one, smash pivot two, smash roller one, smash roller two, connect straight tooth one and connect straight tooth two, fixed mounting has the pan feeding frame in the crushing frame, and it has the intercommunicating pore to open on the pan feeding frame, frame link fixed mounting in smashing the frame, smash pivot one and smash pivot two and rotate simultaneously and install between crushing frame and frame link, smash roller one fixed mounting in smash pivot one, smash roller two fixed mounting in smash pivot two, connect straight tooth one fixed mounting in smash pivot two, connect straight tooth two fixed mounting in smash pivot one, connect straight tooth one and connect straight tooth two meshing transmissions.

Further, the delivery subassembly includes delivery bottom plate, motor base, delivery support, carrier strap first, initiative pivot first, connection band pulley first, initiative roller first, driven roller first and driven swivel post, fixed mounting has motor base on the delivery bottom plate, and fixed mounting has the delivery support on the delivery bottom plate, and initiative pivot is rotated and is installed on the delivery support, and initiative roller first fixed mounting is at the one end of initiative pivot first, and the other end fixed mounting of initiative pivot first has connection band pulley first, and driven swivel post is rotated and is installed on the delivery support, and driven roller first fixed mounting is on driven swivel post, and carrier strap first is connected between initiative roller first and driven roller first, and rubbing crusher frame fixed mounting is on the delivery support.

Further, the screening assembly comprises a screening outer frame, a screening plate, an inner end adjusting plate, a driving rotary table, a manual threaded rod, a driving sliding block, a connecting sleeve, a hand wheel, a rectangular sliding groove, an inner end clamping rod and an inner end clamping rod pushing spring, wherein the screening outer frame is provided with a first opening, the first opening is communicated with the circulating assembly, the screening outer frame is provided with a connecting boss, the screening plate is slidably mounted on the connecting boss, the screening plate is provided with a first rectangular through hole, the rectangular through hole is provided with a plurality of inner end sliding cavities, the screening outer frame is provided with a connecting bracket, the connecting bracket is rotatably mounted with the driving rotary table, the driving rotary table is provided with a rectangular sliding groove, the inner end of the rectangular sliding groove is slidably provided with a driving sliding block, the driving sliding sleeve is fixedly mounted with the connecting sleeve, the screening plate is provided with a connecting bracket, the connecting bracket is mounted with a waist groove opening, one end of the manual threaded rod is in threaded fit with the driving sliding block, the other end of the manual threaded rod is fixedly mounted on the screening outer frame, the inner end of the screening plate is provided with an inner end sliding cavity, the inner end adjusting plate is slidably mounted with a plurality of inner end sliding cavities, the inner end adjusting plate is provided with a plurality of connecting holes are rotatably mounted with a connecting hole, the inner end sliding handles are slidably mounted with rectangular sliding cavities, the inner end sliding handles are matched with the inner end clamping rods are provided with the rectangular sliding handles, the connecting hole are matched with the two inner end clamping rods, the inner end clamping rods are matched with the connecting rods, the inner end sliding handles are provided with the rectangular sliding handles, and the connecting rods are matched with the connecting rods, and the connecting rods are provided with the connecting handles, and the connecting rods and the connecting assembly and with the connecting assembly. The connecting frame is in sliding fit with the side wall opening, and the screening outer frame is fixedly connected with the carrying support.

Further, the circulation assembly comprises a circulation outer frame, a connecting sleeve, a lower end feeding sleeve, an upper end discharging sleeve, a fan-shaped through hole, a first inner rotating shaft, a second inner rotating shaft, a third inner rotating shaft, a first inner carrier belt, a first inner roller, a second inner roller, a first inner spiral blade, a belt wheel, a second connecting belt, a third belt wheel and a third belt wheel.

Further, the power component comprises an executing motor, a fixed support, a clutch slide bar pushing spring, a clutch disc I, a clutch disc II, a connecting column, a transmission taper tooth I, a transmission taper tooth II, a connection taper tooth shaft I, a belt pulley A, a transmission taper tooth III, a connection taper tooth shaft II, a belt pulley B, a belt B and a mounting screw I.

Further, the clutch disc II is fixedly arranged on the connecting column through a mounting screw II.

The invention has the advantages that:

1. the residue generated in the incinerator is conveniently crushed by the crushing assembly; the carrying assembly is convenient to carry the crushed incinerator residues, so that the crushed incinerator residues flow into the screening assembly; the screening assembly is convenient to screen the crushed incinerator residues, and the individual specification of the qualified incinerator residues which can be screened out is adjusted according to actual conditions, so that secondary treatment such as further burial is convenient; the individual unqualified incinerator residues screened out by the screening component are conveniently repeatedly crushed by the crushing component through the circulating component;

2. the crushing rotating shaft II is driven to rotate through the power assembly, and then the crushing rotating shaft I is driven to rotate through the meshing transmission of the connecting straight teeth I and the connecting straight teeth II, so that the crushing roller I and the crushing roller II rotate simultaneously, and the incinerator residues are crushed through the action of the crushing roller I and the crushing roller II on the incinerator residues; meanwhile, the crushed incinerator residues fall into a first carrier belt through the lower end of the crushing frame;

3. the driving roller I is driven to rotate through the driving shaft I, and the carrier belt I is driven to move under the action of the driving roller I, so that the carrier belt I carries the crushed incinerator residues to flow into the screening component;

4. the driving turntable is driven to move through the power assembly, the driving sliding block is driven to move through a rectangular sliding groove formed in the driving turntable, the connecting sleeve is driven to move through the driving sliding block, the connecting frame slides at the inner end of the opening of the side wall through the action of the connecting sleeve and the opening of the waist groove, the screening plate simultaneously reciprocates, and the crushed incinerator residues are screened through the rectangular through holes; meanwhile, unqualified incinerator residue individuals stay at the upper end of the screening plate, meanwhile, the handles slide along the rectangular communication holes, and then the handles drive the inner end adjusting plates to slide at the inner ends of the inner end sliding cavities, so that the inner adjusting plate sieve holes and the rectangular through holes I are staggered, and the specification of the incinerator residue individuals capable of being screened is adjusted by adjusting the staggering degree between the inner adjusting plate sieve holes and the rectangular through holes I, so that the secondary treatment conditions of different burial and the like are met; simultaneously, the hand wheel is manually rotated, so that the manual threaded rod is driven to rotate, the driving sliding block slides at the inner end of the rectangular sliding groove, the radius of the motion track of the driving sliding block is changed, the reciprocating distance of the screening plate is changed, and the screening efficiency of the crushed incinerator residues is adjusted;

5. unqualified incinerator residues retained on the screening plate are flushed into the lower end feeding sleeve through the connecting sleeve, meanwhile, the belt wheel I is driven to rotate through the power assembly, the inner end roller I is driven to move through the inner end rotating shaft III, the unqualified incinerator residues are driven to move through the inner end carrying belt, so that the unqualified incinerator residues are accumulated on the upper side of the circulating outer frame, meanwhile, the belt wheel I rotates and simultaneously drives the belt wheel II through the connecting belt II, the belt wheel III is driven to rotate through the connecting belt III, the inner end spiral blade is driven to rotate through the inner end rotating shaft I, the unqualified incinerator residues are driven to flow out through the fan-shaped through holes through the inner end spiral blade, and the upper end discharging sleeve falls into the crushing frame again through the through holes;

6. starting an execution motor, driving a clutch sliding rod to move through the execution motor, driving a connecting column to rotate through the matched connection of a first clutch disc and a second clutch disc, driving a driving turntable to rotate through the connecting column, and outputting power; meanwhile, the first transmission bevel gear drives the second transmission bevel gear to move, the belt pulley A is driven to move through the connecting bevel gear shaft, the belt A drives the first belt pulley to rotate, and power output is further carried out; meanwhile, the first transmission bevel gear drives the third transmission bevel gear to rotate, the second connection bevel gear shaft drives the belt wheel B to move, the belt wheel B drives the belt B to move, the second crushing rotating shaft and the first connection belt wheel are driven to move, and power output is facilitated.

Drawings

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

FIG. 2 is a schematic view of the section line location of FIG. 1;

FIG. 3 is a cross-sectional view taken along section A-A of FIG. 2;

FIG. 4 is a schematic view of the pulverizing assembly of the present invention;

FIG. 5 is a schematic view of the section line location of FIG. 4;

FIG. 6 is a cross-sectional view taken along section B-B of FIG. 5;

FIG. 7 is a schematic view of a carrier assembly according to the present invention;

FIG. 8 is a schematic view of the cut line location of FIG. 7;

FIG. 9 is a cross-sectional view of FIG. 8 taken along section C-C;

FIG. 10 is a schematic view of the screen assembly of the present invention;

FIG. 11 is a schematic view of the cut line location of FIG. 10;

FIG. 12 is a cross-sectional view taken along section D-D of FIG. 11;

FIG. 13 is an enlarged partial view A of FIG. 12;

FIG. 14 is a schematic view of a sieving frame according to the present invention;

FIG. 15 is a schematic view of the screen deck structure of the present invention;

FIG. 16 is a schematic view of the cut line location of FIG. 15;

FIG. 17 is a cross-sectional view taken along section E-E of FIG. 16;

FIG. 18 is a schematic view of the inner end adjustment plate structure of the present invention;

FIG. 19 is a schematic view of the section line location of FIG. 18;

FIG. 20 is a cross-sectional view taken along section F-F of FIG. 19;

FIG. 21 is a schematic view of a circulation assembly of the present invention;

FIG. 22 is a schematic view of the section line location of FIG. 21;

FIG. 23 is a cross-sectional view taken along section G-G of FIG. 22;

FIG. 24 is a schematic diagram of a circulating assembly according to the present invention;

FIG. 25 is a schematic view of the section line location of FIG. 24;

FIG. 26 is a cross-sectional view taken along section H-H of FIG. 25;

FIG. 27 is a schematic view of a power assembly of the present invention;

FIG. 28 is a schematic view of the section line location of FIG. 27;

FIG. 29 is a cross-sectional view of FIG. 28 taken along section I-I;

the figure indicates:

a crushing assembly 1; a crushing frame 1-1; 1-2 parts of a feeding frame; communication holes 1-3; the outer frame is connected with the frame 1-4; crushing a first rotating shaft 1-5; crushing a second rotating shaft 1-6; crushing roller 1-7; crushing roller II 1-8; connecting straight teeth 1-9; connecting straight teeth II 1-10; a carrying assembly 2; a carrying floor 2-1; a motor base 2-2; carrying a bracket 2-3; carrying belt one 2-4; 2-5 parts of driving rotating shaft I; connecting pulleys I2-6; 2-7 of driving roller I; driven roller I2-8; 2-9 of driven rotating column; a screen assembly 3; screening an outer frame 3-1; opening 3-1-1; 3-1-2 of connecting bosses; 3-1-3 of connecting brackets; sidewall openings 3-1-4; screening plates 3-2; 3-2-1 of rectangular through holes; waist slot opening 3-2-2; 3-2-3 of an inner sliding cavity; rectangular communication holes 3-2-4; 3-2-5 of a matching clamping groove; 3-2-6 parts of connecting frames; an inner end adjusting plate 3-3; inner adjusting plate sieve holes 3-3-1; 3-3-2 of handles; 3-3-3 parts of a handle sliding cavity; driving a turntable 3-4; 3-6 of a manual threaded rod; 3-7 of driving slide blocks; 3-8 of connecting sleeve; 3-9 parts of a hand wheel; 3-10 of rectangular sliding grooves; 3-11 of inner end clamping rods; 3-12 parts of inner clamping rod pushing springs; a circulation assembly 4; a circulation outer frame 4-1; a connecting sleeve 4-2; 4-3 parts of lower end feeding sleeve; 4-4 parts of upper discharge sleeve; 4-5 of fan-shaped through holes; the inner end is provided with a first rotating shaft 4-6; the second inner end rotating shaft is 4-7; the inner end rotating shaft is three 4-8; 4-9 of inner end carrier tapes; inner end roller one 4-10; inner end rollers II 4-11; 4-12 of inner spiral blades; pulley one 4-13; connecting a second belt 4-14; 4-15 of a belt wheel II; connecting belts III 4-16; pulleys III 4-17; a power assembly 5; executing a motor 5-1; 5-2 of a fixed bracket; clutch slide bar 5-3; the clutch slide bar pushes the spring 5-4; 5-5 of clutch disc I; 5-6 parts of a clutch disc II; 5-7 of connecting columns; 5-8 of transmission bevel gears; 5-9 of transmission bevel gears; connecting a first bevel gear shaft 5-10; pulleys A5-11; belts A5-12; transmission bevel gears III 5-13; connecting a second bevel gear shaft 5-14; 5-15 of belt wheels; belts B5-16; 5-17 of mounting screws; and 5-18 parts of mounting screw II.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Example 1

As shown in fig. 1-3, the incinerator residue recycling device comprises a smashing component 1, and further comprises a carrying component 2, a screening component 3, a circulating component 4 and a power component 5, wherein the smashing component 1 is arranged on the carrying component 2, the screening component 3 is arranged on the carrying component 2, one end of the circulating component 4 is arranged on the carrying component 2, the other end of the circulating component 4 is arranged on the smashing component 1, and the power component 5 is connected with the smashing component 1, the carrying component 2 and the circulating component 4 at the same time, so that smashing of residues generated in the incinerator can be conveniently achieved through the smashing component 1; the carrying of the crushed incinerator residues is conveniently realized through the carrying assembly 2, so that the crushed incinerator residues flow into the screening assembly 3; the screening of the crushed incinerator residues is conveniently realized through the screening component 3, and the individual specification of the qualified incinerator residues which can be screened out is adjusted according to actual conditions, so that further secondary treatments such as burial and the like are convenient; individuals of unacceptable incinerator residues screened out by the screen assemblies 3 are conveniently repeatedly crushed by the crushing assembly 1 again through the circulating assembly 4.

Example 2

As shown in fig. 4-6, the crushing assembly 1 comprises a crushing frame 1-1, a feeding frame 1-2, a communicating hole 1-3, an outer frame connecting frame 1-4, a crushing rotating shaft 1-5, a crushing rotating shaft two 1-6, crushing rollers 1-7, crushing rollers two 1-8, a connecting straight tooth 1-9 and a connecting straight tooth two 1-10, wherein the feeding frame 1-2 is fixedly arranged on the crushing frame 1-1, the communicating hole 1-3 is arranged on the feeding frame 1-2, the outer frame connecting frame 1-4 is fixedly arranged on the crushing frame 1-1, the crushing rotating shaft 1-5 and the crushing rotating shaft two 1-6 are simultaneously and rotatably arranged between the crushing frame 1-1 and the outer frame connecting frame 1-4, the crushing rollers 1-7 are fixedly arranged on the crushing rotating shaft 1-5, the crushing rollers two 1-8 are fixedly arranged on the crushing rotating shaft two 1-6, the connecting straight tooth 1-9 is fixedly arranged on the crushing rotating shaft two 1-6, the connecting straight tooth two 1-10 is fixedly arranged on the crushing rotating shaft 1-5, the connecting straight tooth 1-9 is meshed with the crushing rotating shaft 1-5, the crushing rotating shaft 1-10 is meshed with the crushing rotating shaft 1-5, the crushing roller 1-5 is further rotatably arranged on the crushing rotating shaft 1-5, the crushing rotating frame 1-6 is meshed with the crushing rotating frame 1-5, and the crushing roller is further meshed with the crushing rotating frame 1-5, and the crushing roller 1-5 is rotatably arranged on the crushing rotating frame 1-5, and is further, and the crushing rotating frame is rotatably connected with the crushing roller 1-5, further realizing the pulverization of the incinerator residues; meanwhile, the crushed incinerator residues fall into the carrier belt one 2-4 through the lower end of the crushing frame 1-1.

Example 3

As shown in fig. 7-9, the carrying assembly 2 comprises a carrying bottom plate 2-1, a motor base 2-2, a carrying support 2-3, a carrying belt 2-4, a driving rotating shaft 2-5, a connecting belt pulley 2-6, a driving roller 2-7, a driven roller 2-8 and a driven rotating column 2-9, wherein the motor base 2-2 is fixedly installed on the carrying bottom plate 2-1, the carrying support 2-3 is fixedly installed on the carrying bottom plate 2-1, the driving rotating shaft 2-5 is rotatably installed on the carrying support 2-3, the driving roller 2-7 is fixedly installed at one end of the driving rotating shaft 2-5, the other end of the driving rotating shaft 2-5 is fixedly provided with the connecting belt pulley 2-6, the driven rotating column 2-9 is rotatably installed on the carrying support 2-3, the driven roller 2-8 is fixedly installed on the driven rotating column 2-9, the carrying belt 2-4 is connected between the roller 2-7 and the driven roller 2-8, the crushing frame 1-1 is fixedly installed on the carrying support 2-3, the driving belt pulley 5 is rotatably installed on the carrying support 2-3, and the driving belt pulley 2-5 is rotatably installed on one end of the carrying support 2-5 through the driving belt pulley 2-5, and the driving belt 2-5 is driven by the driving belt pulley 2-4 to rotate under the driving assembly, and the driving belt 2-4 is driven by the driving belt 2-4 to rotate, and the driving assembly is driven by the driving belt 2-4 to finish the driving assembly through the driving belt 2-2.

Example 4

As shown in fig. 10-20, the screening assembly 3 comprises a screening outer frame 3-1, a screening plate 3-2, an inner end adjusting plate 3-3, a driving turntable 3-4, a manual threaded rod 3-6, a driving sliding block 3-7, a plurality of connecting sleeves 3-8, a hand wheel 3-9, a rectangular sliding groove 3-10, an inner end clamping rod 3-11 and an inner end clamping rod pushing spring 3-12, wherein an opening 3-1 is formed in the screening outer frame 3-1, the opening 3-1-1 is communicated with the circulating assembly 4, a connecting boss 3-1-2 is arranged on the screening outer frame 3-1, the screening plate 3-2 is slidably mounted on the connecting boss 3-1-2, a rectangular through hole 3-2-1 is formed in the screening plate 3-2, the rectangular through hole 3-2-1 is provided with a plurality of connecting brackets 3-1-3, the driving turntable 3-4 is rotatably mounted on the connecting brackets 3-1-3, a rectangular sliding groove 3-10 is formed in the driving turntable 3-4, the rectangular sliding groove 3-10 is fixedly mounted on the driving turntable 3-2, the driving sliding block 3-7 is slidably mounted on the driving turntable 3-2-2, a waist-6 is fixedly mounted on the connecting sleeve 3-2-2, the driving turntable 3-2-2 is slidably mounted on the connecting sleeve 3-2-2, the driving turntable 3-2 is slidably mounted on the connecting bracket 3-2-6, the driving turntable 3-2-6 is slidably mounted on the connecting sleeve 3-2, one end of a manual threaded rod 3-6 is in threaded fit with a driving sliding block 3-7, a hand wheel 3-9 is fixedly arranged at the other end of the manual threaded rod 3-6, a screening outer frame 3-1 is arranged on the screening outer frame 3-1, an inner end sliding cavity 3-2-3 is arranged at the inner end of the screening plate 3-2, an inner end adjusting plate 3-3 is slidably arranged at the inner end of the inner end sliding cavity 3-2-3, an inner adjusting plate sieve pore 3-3-1 is arranged on the inner end adjusting plate 3-3, a plurality of inner adjusting plate sieve pores are arranged, rectangular communication holes 3-2-4 are arranged on the screening plate 3-2, a handle 3-3-2 is arranged on the inner end adjusting plate 3-3, the handle 3-3-2 is slidably arranged on the rectangular communication holes 3-2-4, the handle 3-3-2 is provided with a handle sliding cavity 3-3, the inner end of the handle sliding cavity 3-3 is provided with an inner end clamping rod 3-11 in a sliding way, two inner end clamping rods 3-11 are arranged, an inner end clamping rod pushing spring 3-12 is arranged between the two inner end clamping rods 3-11, the inner end of the rectangular communication hole 3-2-4 is provided with a plurality of matching clamping grooves 3-2-5, the matching clamping grooves 3-2-5 are matched and connected with the inner end clamping rod 3-11, the screening outer frame 3-1 is provided with a side wall opening 3-1-4, the connecting frame 3-2-6 is in sliding fit with the side wall opening 3-1-4, the screening outer frame 3-1 is fixedly connected with the carrying bracket 2-3, the driving turntable 3-4 is driven to move through the power assembly 5, the driving sliding block 3-7 is driven to move through the rectangular sliding groove 3-10 formed in the driving turntable 3-4, the connecting sleeve 3-8 is driven to move through the driving sliding block 3-7, the connecting frame 3-2-6 slides at the inner end of the side wall opening 3-1-4 under the action of the connecting sleeve 3-8 and the waist groove opening 3-2, the screening plate 3-2 simultaneously reciprocates, the crushed incinerator residues are acted through the rectangular through hole 3-2-1, and screening of the crushed incinerator residues is realized; meanwhile, unqualified incinerator residues are reserved at the upper end of the screening plate 3-2, the handle 3-3-2 is slid along the rectangular communication hole 3-2-4, the handle 3-3-2 drives the inner end adjusting plate 3-3 to slide at the inner end of the inner end sliding cavity 3-2-3, so that the inner adjusting plate screen holes 3-3-1 and the rectangular through holes 3-2-1 are staggered, and the standard of the incinerator residues which can be screened qualified is adjusted by adjusting the staggered degree between the inner adjusting plate screen holes 3-3-1 and the rectangular through holes 3-2-1, so that the requirements of different secondary treatment conditions such as burial are met; simultaneously, hand wheel 3-9 is rotated to the manual hand wheel 3-9 of turning, and then drives manual threaded rod 3-6 and rotates, and then makes drive slider 3-7 take place to slide at the inner of rectangle spout 3-10, and then makes the radius of drive slider 3-7 motion track change, and then makes screening board 3-2 reciprocating motion's interval change, and then makes the efficiency of finishing the incinerator residue screening of smashing adjust.

Example 5

As shown in fig. 21-26, the circulation assembly 4 comprises a circulation outer frame 4-1, a connecting sleeve 4-2, a lower end feeding sleeve 4-3, an upper end discharging sleeve 4-4, a fan-shaped through hole 4-5, an inner end rotating shaft one 4-6, an inner end rotating shaft two 4-7, an inner end rotating shaft three 4-8, an inner end carrier belt 4-9, an inner end roller one 4-10, an inner end roller two 4-11, an inner end spiral blade 4-12, a belt wheel one 4-13, a connecting belt two 4-14, a belt wheel two 4-15, a connecting belt three 4-16 and a belt wheel three 4-17, wherein the connecting sleeve 4-2 and the lower end feeding sleeve 4-3 are fixedly arranged on the circulation outer frame 4-1, the lower end feeding sleeve 4-3 is communicated with the connecting sleeve 4-2, the fan-shaped through hole 4-5 is arranged on the circulation outer frame 4-1, the fan-shaped through hole 4-5 is communicated with the upper end discharging sleeve 4-4, the upper end discharging sleeve 4-4 is fixedly connected with the circulation outer frame 4-1, the inner end rotating shaft I4-6, the inner end rotating shaft II 4-7 and the inner end rotating shaft III 4-8 are simultaneously and rotatably arranged on the circulation outer frame 4-1, the inner end spiral blade 4-12 is fixedly arranged on the inner end rotating shaft I4-6, the inner end roller II 4-11 is fixedly arranged on the inner end rotating shaft II 4-7, the inner end roller I4-10 is fixedly arranged on the inner end rotating shaft III 4-8, an inner end carrier belt 4-9 is connected between the inner end roller I4-10 and the inner end roller II 4-11, the connecting sleeve 4-2 is communicated with the first opening 3-1-1, the upper discharging sleeve 4-4 is communicated with the communicating hole 1-3, the first belt wheel 4-13 is fixedly arranged on the third inner end rotating shaft 4-8, the second belt wheel 4-15 is fixedly arranged on the second inner end rotating shaft 4-7, the third belt wheel 4-17 is fixedly arranged on the first inner end rotating shaft 4-6, the connecting belt 4-14 is connected between the first belt wheel 4-13 and the second belt wheel 4-15, the third belt wheel 4-16 is connected between the second belt wheel 4-15 and the third belt wheel 4-17, the unqualified incinerator residues retained on the screening plate 3-2 are flushed into the lower feeding sleeve 4-3 through the connecting sleeve 4-2, the first belt wheel 4-13 is driven to rotate through the power assembly 5, the first inner end rotating shaft 4-8 is driven to move through the first inner end rotating shaft 4-10, the unqualified incinerator residues are driven to move through the first inner end carrying belt 4-9, the unqualified incinerator residues are accumulated on the upper side of the circulating outer frame 4-1, the first belt wheel 4-13 is simultaneously driven by the second belt wheel 4-13 to rotate through the second belt wheel 4-14, the second belt wheel 4-16 is driven by the first belt 4-13 to rotate through the first belt 4-6, the unqualified incinerator residues are driven by the third belt 4-6 is driven by the second belt 4-6 through the second belt 4-6, and the second belt 4-12 is driven by the second belt 4-12 through the second belt 12 is driven through the second inner rotating through the inner rotating shaft 12, so that the upper discharge sleeve 4-4 falls back into the pulverizing frame 1-1 again through the communication hole 1-3.

Example 6

As shown in fig. 27-29, the power assembly 5 comprises an executing motor 5-1, a fixed bracket 5-2, a clutch slide bar 5-3, a clutch slide bar pushing spring 5-4, a clutch disc I5-5, a clutch disc II 5-6, a connecting column 5-7, a transmission bevel gear I5-8, a transmission bevel gear II 5-9, a connecting bevel gear axle I5-10, a belt wheel A5-11, a belt A5-12, a transmission bevel gear III 5-13, a connecting bevel gear axle II 5-14, a belt wheel B5-15, a belt B5-16 and a mounting screw I5-17, wherein the executing motor 5-1 is arranged on a motor base 2-2, the clutch slide bar 5-3 is arranged on an output shaft of the executing motor 5-1, the clutch slide bar 5-3 is rotatably arranged on the fixed bracket 5-2, the clutch disc I5-5 is slidingly arranged on the clutch slide bar 5-3, a clutch slide bar pushing spring 5-4 is arranged between the clutch disc I5-5 and the clutch slide bar 5-3, the clutch disc I5-5 is connected with the clutch disc II 5-6 in a matched manner, the clutch disc II 5-6 is fixedly arranged at one end of the connecting column 5-7, the other end of the connecting column 5-7 is fixedly provided with a transmission bevel gear I5-8, the transmission bevel gear III 5-13 is meshed with the transmission bevel gear I5-8 for transmission, the transmission bevel gear III 5-13 is fixedly arranged at one end of the connecting bevel gear axle II 5-14, the other end of the connecting bevel gear axle II 5-14 is fixedly provided with a belt wheel B5-15, one end of the belt B5-16 is connected with the belt wheel B5-15, the other end of the belt B5-16 is connected to the belt pulley I4-13, the transmission bevel gear II 5-9 is meshed with the transmission bevel gear I5-8 for transmission, the transmission bevel gear II 5-9 is fixedly arranged at one end of the connection bevel gear shaft I5-10, the belt pulley A5-11 is fixedly arranged at the other end of the connection bevel gear shaft I5-10, one end of the belt A5-12 is connected to the belt pulley A5-11, the other end of the belt A5-12 is connected to the crushing rotating shaft II 1-6, meanwhile, the belt A5-12 is connected with the connection belt pulley I2-6 in a matched manner, the fixed support 5-2 is arranged on the connection support 3-1-3 through the mounting screw I5-17, the connection column 5-7 is fixedly connected with the driving turntable 3-4, the setting is set in such a manner, the execution motor 5-1 is started, the clutch slide rod 5-3 is driven to move through the execution motor 5-1, the clutch disc I5-5 is further connected with the clutch disc II 5-6 in a matched manner, the connection column 5-7 is further driven to rotate, the connection column 3-4 is further, and the driving turntable 3-4 is further rotated through the connection column 5-7 is further, and power is further driven to output; meanwhile, the first transmission bevel gear 5-8 drives the second transmission bevel gear 5-9 to move, the first connection bevel gear shaft 5-10 drives the belt wheel A5-11 to move, the belt A5-12 drives the first belt wheel 4-13 to rotate, and power output is further carried out; meanwhile, the first transmission bevel gear 5-8 drives the third transmission bevel gear 5-13 to rotate, the second connection bevel gear shaft 5-14 drives the belt wheel B5-15 to move, the belt wheel B5-15 drives the belt B5-16 to move, the second crushing rotating shaft 1-6 and the first connection belt wheel 2-6 are driven to move, and power output is facilitated.

The second clutch disc 5-6 is fixedly arranged on the connecting column 5-7 through the second mounting screw 5-18.

It will be understood that the invention has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (1)

1. The utility model provides an incinerator residue recovery processing equipment, includes crushing subassembly (1), its characterized in that still includes carrier assembly (2), screening subassembly (3), circulation subassembly (4) and power pack (5), crushing subassembly (1) are installed on carrier assembly (2), and screening subassembly (3) are installed on carrier assembly (2), and one end of circulation subassembly (4) is installed on carrier assembly (2), and the other end of circulation subassembly (4) is installed on crushing subassembly (1), and power pack (5) are connected with crushing subassembly (1), carrier assembly (2) and circulation subassembly (4) simultaneously;

the crushing assembly (1) comprises a crushing frame (1-1), a feeding frame (1-2), a communication hole (1-3), an outer frame connecting frame (1-4), a crushing rotating shaft I (1-5), a crushing rotating shaft II (1-6), a crushing roller I (1-7), a crushing roller II (1-8), a connecting straight tooth I (1-9) and a connecting straight tooth II (1-10), wherein the feeding frame (1-2) is fixedly arranged on the crushing frame (1-1), the communication hole (1-3) is arranged on the feeding frame (1-2), the outer frame connecting frame (1-4) is fixedly arranged on the crushing frame (1-1), the crushing rotating shaft I (1-5) and the crushing rotating shaft II (1-6) are simultaneously and rotatably arranged between the crushing frame (1-1) and the outer frame connecting frame (1-4), the crushing roller II (1-8) is fixedly arranged on the crushing rotating shaft I (1-5), the connecting tooth I (1-9) is fixedly arranged on the crushing rotating shaft II (1-6), the connecting straight tooth II (1-9) is fixedly arranged on the crushing rotating shaft II (1-5), the connecting straight teeth I (1-9) and the connecting straight teeth II (1-10) are meshed for transmission;

the carrying assembly (2) comprises a carrying bottom plate (2-1), a motor base (2-2), a carrying bracket (2-3), a carrying belt (2-4), a driving rotating shaft (2-5), a connecting belt wheel (2-6), a driving roller (2-7), a driven roller (2-8) and a driven rotating column (2-9), wherein the motor base (2-2) is fixedly arranged on the carrying bottom plate (2-1), the carrying bracket (2-3) is fixedly arranged on the carrying bottom plate (2-1), the driving rotating shaft (2-5) is rotatably arranged on the carrying bracket (2-3), the driving roller (2-7) is fixedly arranged at one end of the driving rotating shaft (2-5), the connecting belt wheel (2-6) is fixedly arranged at the other end of the driving rotating shaft (2-5), the driven rotating column (2-9) is rotatably arranged on the carrying bracket (2-3), the driven roller (2-8) is fixedly arranged on the driven rotating column (2-9), the carrying belt (2-4) is connected between the driving roller (2-7) and the driven roller (2-8), the crushing frame (1-1) is fixedly arranged on the carrying bracket (2-3);

the screening component (3) comprises a screening outer frame (3-1), a screening plate (3-2), an inner end adjusting plate (3-3), a driving rotary table (3-4), a manual threaded rod (3-6), a driving sliding block (3-7), a first connecting sleeve (3-8), a hand wheel (3-9), a rectangular sliding groove (3-10), an inner end clamping rod (3-11) and an inner end clamping rod pushing spring (3-12), wherein an opening I (3-1-1) is formed in the screening outer frame (3-1), the opening I (3-1-1) is communicated with the circulating component (4), a connecting boss (3-1-2) is arranged on the screening outer frame (3-1), the screening plate (3-2) is slidably mounted on the connecting boss (3-1-2), a first rectangular through hole (3-2-1) is formed in the screening outer frame (3-1), a plurality of connecting brackets (3-1-3) are arranged on the screening outer frame (3-1), a rectangular sliding groove (3-1-4) is arranged on the connecting brackets (3-1-1), the rotating rotary table (3-4) is arranged on the driving rotary table (3-4), the inner end of the rectangular sliding chute (3-10) is slidably provided with a driving sliding block (3-7), the driving sliding block (3-7) is fixedly provided with a first connecting sleeve (3-8), the screening plate (3-2) is provided with a connecting frame (3-2-6), the connecting frame (3-2-6) is provided with a waist slot opening (3-2-2), the first connecting sleeve (3-8) is slidably matched with the inner end of the waist slot opening (3-2-2), the driving rotating disc (3-4) is rotatably provided with a manual threaded rod (3-6), one end of the manual threaded rod (3-6) is in threaded fit with the driving sliding block (3-7), the other end of the manual threaded rod (3-6) is fixedly provided with a hand wheel (3-9), the screening outer frame (3-1) is provided with a screening hole, the inner end of the screening plate (3-2) is provided with an inner end sliding cavity (3-2-3), the inner end adjusting plate (3-3) is slidably arranged at the inner end of the inner end sliding cavity (3-2-3), the inner end adjusting plate (3-3) is provided with an inner adjusting plate (3-3), the inner adjusting plate (3-3) is provided with a plurality of holes (3-2) and the screening holes (3-2), the inner end adjusting plate (3-3) is provided with a handle (3-3-2), the handle (3-3-2) is slidably mounted on the rectangular communication hole (3-2-4), the handle (3-3-2) is provided with a handle sliding cavity (3-3-3), the inner end of the handle sliding cavity (3-3-3) is slidably mounted with an inner end clamping rod (3-11), the inner end clamping rods (3-11) are provided with two inner end clamping rod pushing springs (3-12), the inner ends of the rectangular communication hole (3-2-4) are provided with a plurality of matching clamping grooves (3-2-5), the matching clamping grooves (3-2-5) are matched and connected with the inner end clamping rods (3-11), the screening outer frame (3-1) is provided with a side wall opening (3-1-4), the connecting frame (3-2-6) is slidably matched with the side wall opening (3-1-4), and the screening outer frame (3-1) is fixedly connected with the carrying bracket (2-3-3);

the circulating assembly (4) comprises a circulating outer frame (4-1), a connecting sleeve II (4-2), a lower end feeding sleeve (4-3), an upper end discharging sleeve (4-4), a fan-shaped through hole (4-5), an inner end rotating shaft I (4-6), an inner end rotating shaft II (4-7), an inner end rotating shaft III (4-8), an inner end carrying belt (4-9), an inner end roller I (4-10), an inner end roller II (4-11), an inner end spiral blade (4-12), a belt pulley I (4-13), a connecting belt II (4-14), a belt pulley II (4-15), a connecting belt III (4-16) and a belt pulley III (4-17), wherein the connecting sleeve II (4-2) and the lower end feeding sleeve (4-3) are fixedly arranged on the circulating outer frame (4-1), the lower end feeding sleeve (4-3) is communicated with the connecting sleeve II (4-2), the fan-shaped through hole (4-5) is formed in the circulating outer frame (4-1), the fan-shaped through hole (4-5) is communicated with the upper end discharging sleeve (4-4) and the upper end discharging sleeve (4-6) is fixedly connected with the upper end discharging sleeve (4-1), the inner end rotating shaft II (4-7) and the inner end rotating shaft III (4-8) are simultaneously and rotatably arranged on the circulation outer frame (4-1), the inner end spiral blade (4-12) is fixedly arranged on the inner end rotating shaft I (4-6), the inner end roller II (4-11) is fixedly arranged on the inner end rotating shaft II (4-7), the inner end roller I (4-10) is fixedly arranged on the inner end rotating shaft III (4-8), an inner end carrying belt (4-9) is connected between the inner end roller I (4-10) and the inner end roller II (4-11), the connecting sleeve II (4-2) is communicated with the opening I (3-1-1), the upper end discharging sleeve (4-4) is communicated with the communication hole (1-3), the belt pulley I (4-13) is fixedly arranged on the inner end rotating shaft III (4-8), the belt pulley II (4-15) is fixedly arranged on the inner end rotating shaft II (4-7), the belt pulley III (4-17) is fixedly arranged on the inner end rotating shaft I (4-6), the connecting sleeve II (4-14) is connected between the belt II (4-13) and the belt pulley II (4-13), the connecting belt III (4-16) is connected between the belt wheel II (4-15) and the belt wheel III (4-17);

the power component (5) comprises an executing motor (5-1), a fixed bracket (5-2), a clutch slide bar (5-3), a clutch slide bar pushing spring (5-4), a first clutch disc (5-5), a second clutch disc (5-6), a connecting column (5-7), a first transmission bevel gear (5-8), a second transmission bevel gear (5-9), a first connection bevel gear shaft (5-10), a belt pulley A (5-11), a belt A (5-12), a third transmission bevel gear (5-13), a second connection bevel gear shaft (5-14), a belt pulley B (5-15), a belt B (5-16) and a first mounting screw (5-17), the executing motor (5-1) is mounted on a motor base (2-2), the clutch slide bar (5-3) is mounted on an output shaft of the executing motor (5-1), the first clutch disc (5-5) is slidingly mounted on the clutch slide bar (5-3) and the clutch slide bar (5-3) is rotatably mounted on the fixed bracket (5-2), the clutch slide bar (5-3) is arranged between the first clutch disc (5-5) and the clutch slide bar (5-3), the clutch disc I (5-5) is connected with the clutch disc II (5-6) in a matching way, the clutch disc II (5-6) is fixedly arranged at one end of the connecting column (5-7), the other end of the connecting column (5-7) is fixedly provided with a transmission bevel gear I (5-8), the transmission bevel gear III (5-13) is in meshed transmission with the transmission bevel gear I (5-8), the transmission bevel gear III (5-13) is fixedly arranged at one end of the connecting bevel gear axle II (5-14), the other end of the connecting bevel gear axle II (5-14) is fixedly provided with a belt wheel B (5-15), one end of the belt B (5-16) is connected with the belt wheel B (5-15), the other end of the belt B (5-16) is connected with the belt wheel I (4-13), the transmission bevel gear II (5-9) is in meshed transmission with the transmission bevel gear I (5-8), the transmission bevel gear II (5-9) is fixedly arranged at one end of the connecting bevel gear axle I (5-10), the other end of the connecting bevel gear I (5-10) is fixedly provided with the belt wheel A (5-11) and the other end of the connecting bevel gear axle I (5-10) is connected with the belt A (11) at the other end of the belt B (5-12) at one end of the belt B (1-12), meanwhile, the belt A (5-12) is connected with the first connecting belt wheel (2-6) in a matched mode, the fixed support (5-2) is installed on the first connecting support (3-1-3) through the first mounting screw (5-17), and the connecting column (5-7) is fixedly connected with the driving turntable (3-4).

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