CN116422409A - Powder screening equipment and screening process for refractory materials of solid waste incinerator - Google Patents

Abstract

The embodiment of the application discloses solid useless incinerator refractory material sieve powder equipment, including the main tank body, the bottom of main tank body inner chamber roof is equipped with the mount, and the internally mounted of mount has driving motor, driving motor output shaft's outside fixed sleeve has the puddler, the bottom fixedly connected with diamond column of puddler, the inside both sides fixedly connected with backup pad of main tank body. This solid useless incinerator refractory material screening powder equipment and screening technology through the driving motor of installation in main box inner chamber roof bottom mount for the refractory material grog of feeding incasement portion is carried out preliminary stirring through puddler and diamond column, and under the propelling movement of wallboard, makes the grog after the stirring refines pass through the inside that the filter screen row advances the row material pipe, makes this device can carry out preliminary screening filtration to the large granule impurity in the grog from this, has improved the effect of this device later stage screening.

Description

Powder screening equipment and screening process for refractory materials of solid waste incinerator

Technical Field

The application relates to the technical field of powder screening equipment, in particular to powder screening equipment and a powder screening process for refractory materials of a solid waste incinerator.

Background

The solid waste incinerator is an incinerator for garbage, waste gas and the like, is equipment for incinerating and treating garbage, the solid waste garbage is combusted in a hearth and is changed into waste gas to enter a secondary combustion chamber, the waste gas is completely combusted under forced combustion of a combustor, the waste gas enters a spray type dust remover, dust is discharged into the atmosphere through a chimney after dust removal, the solid waste garbage incinerator consists of a garbage pretreatment system, an incineration system, a smoke biochemical dust removal system and a gas producer (auxiliary ignition incineration) and is integrated with automatic feeding, screening, drying, incineration, ash removal, dust removal and automatic control, and the solid waste incinerator usually adopts refractory materials to improve the heat resistance of a furnace body, so that the solid waste garbage is combusted more fully.

The refractory materials used in the solid waste incinerator generally adopt clay bricks or high-alumina bricks, the clay bricks or the high-alumina bricks are used as the refractory materials of the solid waste incinerator, when the refractory materials are produced and manufactured, classification screening and deironing are needed, in the existing screening equipment for the refractory materials of the solid waste incinerator, the clinker is generally put in at one time and deironing operation is carried out, however, the removed iron powder and other impurities remain in the equipment, the equipment needs to be opened during the later cleaning, and in the screening equipment, when the classified and screened clinker is collected, the screening mode belongs to gravity filtering and screening classification, so that the clinker is pushed to form mountain when falling into a storage box, then the clinker is excessively high in the middle part and low in the outer side when being collected, finally the clinker is splashed outside the storage box when being collected, and the clinker is left when being stored, therefore, the refractory material screening equipment and the screening technology of the solid waste incinerator are provided.

Disclosure of Invention

In view of the above problems, the present application proposes a powder screening apparatus and a screening process for refractory materials of a solid waste incinerator, so as to improve the above problems.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a solid useless fire-resistant material screening powder equipment of burning furnace that burns, includes the main tank body, the bottom of main tank body inner chamber roof is equipped with the mount, and the internally mounted of mount has driving motor, driving motor output shaft's outside fixedly connected with puddler, the bottom fixedly connected with diamond column of puddler, the inside both sides fixedly connected with backup pad of main tank body, the externally mounted of backup pad has electromagnetic iron board, the inside slip in the main tank body outside has cup jointed the linkage frame, the one end fixedly connected with magnetic force scraper blade of linkage frame, the linkage frame is located the outside one end fixedly connected with linkage hand rest of main tank body, the below fixedly connected with screening board of main tank body inner wall, the inside slip of main tank body outer wall one side has cup jointed the linkage scraper blade, the bottom fixedly connected with division board of screening board, the internally mounted of division board has the motor, the outside fixedly cup joint of motor output shaft has the linkage pole.

Optionally, the inside of division board is equipped with the standing groove, the motor is located inside the standing groove, the notch has been seted up to the both sides of division board, and the inside slip of notch has cup jointed double-end striking board.

Optionally, the main tank body inner chamber is located the both sides slip of division board and has cup jointed the containing box, the both sides of double-end striking board are the arc, just the inboard of double-end striking board offsets with the outside of gangbar.

Optionally, the screening board is divided into upper and lower two-layer, and upper and lower two-layer is the contained angle setting, the filtration pore has been seted up to the top layer of screening board, the bottom of linkage scraper blade offsets with the top of screening board.

Optionally, the left side of screening board offsets with the left wall of main box inner chamber, the contained angle department of screening board does not contact with the right wall of main box inner chamber, just the containing box is located the both sides of screening board bottom respectively.

Optionally, the top fixedly connected with feeding case of main box, the top of feeding case rotates the top cap that has cup jointed, the top of top cap is equipped with the inlet pipe, the puddler is located the inside of feeding case, the outside fixedly connected with wallboard of puddler one end.

Optionally, the filter screen has been seted up to the both sides of feeding case, the outside both sides fixedly connected with row material pipe of feeding case, the drain groove has been seted up to the both sides at main box top, and drain groove and row material pipe intercommunication each other, the one end of wallboard offsets with the inner wall of feeding case.

Optionally, the main tank inner wall is located the below fixedly connected with water conservancy diversion frame of backup pad, the externally mounted of main tank has servo motor, the outside fixed sleeve of servo motor output shaft has broken roller, broken roller is located the inside of water conservancy diversion frame, the blown down tank has been seted up at the middle part of water conservancy diversion frame bottom, and the bottom fixedly connected with deflector of water conservancy diversion frame.

A screening process of a refractory material screening device of a solid waste incinerator comprises the following steps:

s1, firstly throwing the clinker required by the solid waste incinerator with refractory materials into the feeding box through a feeding pipe, then starting a driving motor, driving a stirring rod to rotate in the feeding box through the driving motor, enabling the stirring rod to respectively drive a wall plate and a diamond column to mix and stir the clinker required by the solid waste incinerator with refractory materials in the feeding box, and primarily crushing the clinker, enabling the refractory materials clinker meeting the specification to enter the discharging pipe through the filter screen by pushing the wall plate, enter the main box through the discharging pipe, and then starting an electromagnetic iron plate, enabling the electromagnetic iron plate to generate magnetic force by electrifying the electromagnetic iron plate, adsorbing iron impurities and the like in the clinker, and enabling the rest clinker to fall into the top of the flow guiding frame under the adsorption of the triple electromagnetic iron plates.

S2, after clinker falls into two side baffles at the top of the flow guide frame, the clinker falls into the inner side of the flow guide frame and falls to the crushing roller through the drainage of the two side baffles at the top, then the servo motor is started, the crushing roller is driven to rotate by the servo motor, the clinker is crushed and crushed, the clinker after crushing falls into the top of the guide plate, the clinker falls into the top of the screening plate through the guidance of the guide plate, the clinker falling into the top of the screening plate passes through the inclined top layer of the screening plate and the filtering holes thereof, coarse fodder in the clinker is intercepted by the top layer of the screening plate and falls into the right side storage box, and fine chat in the clinker falls into the top of the bottom layer of the screening plate and falls into the left side storage box through the guidance of the bottom layer of the screening plate, so that the screening and storage of refractory materials required by the solid waste incinerator are completed.

S3, when coarse materials and fine materials in clinker in the refractory materials needed to be used in the solid waste incinerator are screened and respectively collected in the two groups of storage boxes, a motor is started, a linkage rod is driven to rotate through the motor, when the linkage rod rotates, the outer end of the linkage rod is abutted against the inner side of one side of the double-head impact plate and impacted, the double-head impact plate impacts left and right in the inside of the isolation plate, the double-head impact plate impacts the two groups of storage boxes through the left and right impacts of the double-head impact plate, coarse materials and fine materials stored in the two groups of storage boxes are vibrated, then the coarse materials and the fine materials are paved in the two groups of storage boxes, after screening is completed, the linkage frame is driven by the linkage frame to pull the magnetic scraping plate on the surface of the electromagnetic iron plate through external pulling, iron powder and the like adsorbed on the top surface of the electromagnetic iron plate are scraped, and after scraping, the electromagnetic iron plate is stopped.

The application provides a refractory material screening equipment and screening process of solid waste incinerator, possess following beneficial effect:

1. this solid useless incinerator refractory material screening powder equipment and screening technology through the driving motor of installation in main box inner chamber roof bottom mount for the refractory material grog of feeding incasement portion is carried out preliminary stirring through puddler and diamond column, and under the propelling movement of wallboard, makes the grog after the stirring refines pass through the inside that the filter screen row advances the row material pipe, makes this device can carry out preliminary screening filtration to the large granule impurity in the grog from this, has improved the effect of this device later stage screening.

2. This solid useless incinerator refractory material sieve powder equipment and screening technology through the link frame that cup joints at the inside slip of main box, when this device needs the inside iron impurity such as filtered screening of main box, at first outside pulling link hand frame for link hand frame drive link frame linkage magnetic force scraper blade is outside sliding at the surface of electromagnetism iron plate, at gliding in-process, adsorb the surface of electromagnetism iron plate surface absorptive iron powder etc. at the surface of magnetic force scraper blade and finally take out the inside of main box with magnetic force scraper blade, improved the convenience of this device clean iron powder then.

3. This solid useless burning furnace refractory material screening powder equipment and screening technology, through the motor at division board internally mounted, when this device is collecting the grog of solid useless burning furnace refractory material, at first start the motor, drive the gangbar through the motor and rotate, the gangbar offsets with the inboard of double-end striking board when rotating, and drive double-end striking board bidirectional slide, make double-end striking board strike both sides containing box of both sides respectively, make the inside coarse fodder that is collected of containing box and fine material by the impact vibrations then make coarse fodder and fine material spread in the inside of containing box, the export shutoff of the number grog will top blanking of having avoided the later stage, also avoided the coarse and fine material to produce the splash at the in-process, produce the circumstances of mixing dislocation collection consequently, thereby improved the stability and the accuracy of the grog after the screening of this device collection.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 shows a schematic diagram of a powder screening device and a screening process for refractory materials of a solid waste incinerator according to an embodiment of the application;

FIG. 2 shows a side view of a solid waste incinerator refractory screening apparatus and screening process according to an embodiment of the present application;

FIG. 3 shows a cross-sectional view of a solid waste incinerator refractory screening apparatus and screening process according to an embodiment of the present application;

FIG. 4 shows a cross-sectional view of a separator plate of a solid waste incinerator refractory screening device and screening process according to an embodiment of the present application;

FIG. 5 shows a schematic diagram of a scraper blade of a solid waste incinerator refractory screening device and a screening process according to an embodiment of the present application;

FIG. 6 shows a schematic diagram of a double-head impact plate of a solid waste incinerator refractory material screening device and a screening process according to an embodiment of the application

Fig. 7 shows a cross-sectional view of a double-head impact plate of a solid waste incinerator refractory screening device and screening process according to an embodiment of the present application.

In the figure: 1. a main case; 2. a feed box; 3. a top cover; 4. a feed pipe; 5. a discharge pipe; 6. a driving motor; 7. a stirring rod; 8. a wall plate; 9. diamond columns; 10. a support plate; 11. an electromagnetic iron plate; 12. a linkage frame; 13. a magnetic scraper; 14. a flow guiding frame; 15. a servo motor; 16. a crushing roller; 17. a guide plate; 18. a screening plate; 19. a partition plate; 20. a motor; 21. a linkage rod; 22. a double-ended strike plate; 23. a storage box; 24. a filter screen; 25. a linkage scraper; 26. and a linkage hand rest.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

Referring to fig. 1 to 2, the present invention provides a technical solution: the utility model provides a solid waste incinerator refractory material screening powder equipment, including main box 1, main box 1 is as the main screening bearing structure of this device, it has played the effect of supporting feeding case 2 and servo motor 15, the stability of this device has been improved, the bottom of main box 1 inner chamber roof is equipped with the mount, and the internally mounted of mount has driving motor 6, driving motor 6 is as the drive structure of this device, it has played drive puddler 7 and has driven wallboard 8 and diamond column 9 and carry out preliminary stirring broken effect to refractory material's grog in feeding case 2, make later stage broken grog time more complete, driving motor 6 output shaft's outside fixed cup joint puddler 7, puddler 7 is as the support link gear of this device, it plays the effect of linkage diamond column 9 and wallboard 8, make wallboard 8 and diamond column 9 can follow puddler 7 and rotate in the inside of feeding case 2 in step, the screening and crushing linkage of the device is improved, the diamond-shaped columns 9 are fixedly connected to the bottom of the stirring rod 7, the diamond-shaped columns 9 serve as auxiliary stirring structures of the device, the effect of auxiliary stirring clinker left at the bottom of the stirring rod 7 is achieved, the comprehensive property of the device for stirring the crushed clinker is improved, the supporting plates 10 are fixedly connected to the two sides of the inside of the main box body 1, the supporting plates 10 serve as supporting structures of the device, the effect of installing a plurality of groups of electromagnetic iron plates 11 is achieved through the cooperation with the inner walls of the two sides of the main box body 1, the installation stability of the electromagnetic iron plates 11 is improved, the electromagnetic iron plates 11 are installed outside the supporting plates 10, the electromagnetic iron plates 11 serve as iron removing structures of the device, the effect of absorbing iron powder in the clinker is achieved, and the electromagnetic iron plates 11 of each group are arranged in a staggered mode, the clinker is guaranteed to fall the feeding smoothly and the iron powder in the clinker is comprehensively absorbed and removed, the deironing efficiency of the device is improved, the linkage frame 12 is sleeved in the inner sliding mode on the outer side of the main box body 1, the linkage frame 12 serves as a connecting structure of the device, the effect of the linkage frame 26 and the magnetic scraping plate 13 is achieved, the convenience of cleaning by workers is improved, one end of the linkage frame 12 is fixedly connected with the magnetic scraping plate 13, the magnetic scraping plate 13 serves as an deironing structure of the device, the iron powder is made of iron-absorbing stone to ensure that the situation that the iron powder falls again when the iron powder is scraped is avoided, the deironing efficiency of the device is guaranteed, one end of the linkage frame 12, which is located on the outer side of the main box body 1, is fixedly connected with the linkage frame 26, the linkage frame 26 serves as a connecting structure of the device, the worker is convenient to directly pull the magnetic scraping plate 13 to carry out deironing cleaning operation, the screening plate 18 is fixedly connected with below the inner wall of the main box body 1, and the screening plate 18 serves as a filtering structure of the device, and the effect of screening coarse and fine materials in the layered refractory materials is achieved.

Referring to fig. 3 to 6, a linkage scraper 25 is slidably sleeved in the inner portion of one side of the outer wall of the main case 1, the linkage scraper 25 is used as a cleaning structure of the device, the cleaning structure plays a role in cleaning the screening plate 18 when the top layer filtering hole of the screening plate 18 is blocked, the screening smoothness of the screening plate 18 is improved, the bottom of the screening plate 18 is fixedly connected with a separation plate 19, the separation plate 19 is used as a separation structure of the device, the space below the inner cavity of the main case 1 is divided into two independent spaces for storing two groups of storage boxes 23, the effect of limiting the double-end impact plate 22 is achieved in the device, the double-end impact plate 22 is prevented from being separated from the inner portion of the separation plate 19, a motor 20 is installed in the inner portion of the separation plate 19, the motor 20 is used as the prior art, the detailed description is not performed in the application, the outer portion of an output shaft of the motor 20 is fixedly sleeved with a linkage rod 21, the linkage rod 21 is used as the linkage structure of the device, the utility model discloses a novel device for separating clinker from cement, which is characterized in that the novel device is driven by a motor 20 to rotate, and the novel device is used for timing the collision of the novel device with cement, a double-head collision plate 22 is arranged in a separating plate 19, the motor 20 is arranged in the separating plate 19, two sides of the separating plate 19 are provided with notches, the double-head collision plate 22 is sleeved in the notches in a sliding manner, the double-head collision plate 22 is used as a vibration structure of the novel device, the novel device is used for colliding a containing box 23 under the collision of a linkage rod 21, so that the containing box 23 is impacted to achieve the effect of distributing clinker in the containing box 23 after being impacted, the inner cavity of a main box body 1 is positioned at two sides of the separating plate 19 in a sliding manner, the two sides of the double-head collision plate 22 are arc-shaped, the inner side of the double-head collision plate 22 is propped against the outer side of the linkage rod 21, the screening plate 18 is divided into an upper layer and a lower layer, the upper layer and the lower layer are arranged in an included angle, the top layer of the screening plate 18 is provided with a filter hole, the bottom of the linkage scraper 25 is propped against the top of the screening plate 18, the left side of the screening plate 18 is propped against the left wall of the inner cavity of the main box body 1, the included angle of the screening plate 18 is not contacted with the right wall of the inner cavity of the main box body 1, the included angle of the screening plate 18 and one end of the bottom layer of the screening plate 18 are respectively used as outlets of coarse materials and fine materials, the containing boxes 23 are respectively positioned at two sides of the bottom of the screening plate 18, the top of the main box body 1 is fixedly connected with the feeding box 2, the top of the feeding box 2 is rotatably sleeved with the top cover 3, the top of the top cover 3 is provided with the feeding pipe 4, the stirring rod 7 is positioned inside the feeding box 2, the outer part of one end of the stirring rod 7 is fixedly connected with the wall plate 8, the wall plate 8 plays the role of pushing clinker, the clinker conforming to the specification is pushed into the filter screen 24, the filter screen 24 is arranged at two sides of the feeding box 2, the two sides of the outer part of the feeding box 2 are fixedly connected with the discharging pipe 5, the row material pipe 5 is as the structure of discharging of this device, it has played the inside effect of feeding the cooked material heap of feeding case 2 inside meeting the specification into main tank 1, leak groove has been seted up to the both sides at main tank 1 top, and leak groove and row material pipe 5 intercommunication each other, the one end of wallboard 8 offsets with the inner wall of feeding case 2, main tank 1 inner wall is located the below fixedly connected with guide frame 14 of backup pad 10, servo motor 15 is installed to the outside of main tank 1, servo motor 15 is as prior art, this application is no longer detailed, the outside fixed sleeve joint of servo motor 15 output shaft has broken roller 16, broken roller 16 is located the inside of guide frame 14, the blown down groove has been seted up at the middle part of guide frame 14 bottom, the effect that the grog after being broken completely was carried to the deflector 17 top has been guaranteed to the blown down groove, and the bottom fixedly connected with deflector 17 of guide frame 14.

A screening process of a refractory material screening device of a solid waste incinerator comprises the following steps:

s1, firstly, throwing the clinker required by the solid waste incinerator into the feeding box 2 through the feeding pipe 4, then starting the driving motor 6, driving the stirring rod 7 to rotate in the feeding box 2 through the driving motor 6, enabling the stirring rod 7 to respectively drive the wall plate 8 and the diamond-shaped column 9 to mix and stir the clinker required by the solid waste incinerator in the feeding box 2, primarily crushing the clinker required by the solid waste incinerator, enabling the clinker meeting the specification to enter the discharging pipe 5 through the filter screen 24 pushed by the wall plate 8 and enter the main box 1 through the discharging pipe 5, then starting the electromagnetic iron plate 11, enabling the electromagnetic iron plate 11 to generate magnetic force through electrifying the electromagnetic iron plate 11, adsorbing iron impurities and the like in the clinker, and enabling the rest clinker to fall into the top of the guide frame 14 under the adsorption of the electromagnetic iron plate 11.

S2, after clinker falls into two side baffles at the top of the guide frame 14, the clinker falls into the inner side of the guide frame 14 and falls to the crushing roller 16 through drainage of the baffles at the two sides at the top, then the servo motor 15 is started, the crushing roller 16 is driven to rotate by the servo motor 15, the clinker is crushed and crushed, the crushed clinker falls into the top of the guide plate 17, the clinker falls into the top of the screening plate 18 through guidance of the guide plate 17, the clinker falling into the top of the screening plate 18 passes through the inclined top layer of the screening plate 18 and the filtering holes thereof, coarse materials in the clinker are intercepted by the top layer of the screening plate 18 and fall into the inside of the right side containing box 23, fine chat in the clinker falls into the top of the bottom layer of the screening plate 18, and the fine chat falls into the inside of the left side containing box 23 through guidance of the bottom layer of the screening plate 18, so that the screening and containing of refractory materials required by the solid waste incinerator are completed.

S3, when coarse materials and fine materials in clinker are screened and respectively collected in the two groups of storage boxes 23 in the refractory materials required by the solid waste incinerator, the motor 20 is started, the linkage rod 21 is driven to rotate through the motor 20, when the linkage rod 21 rotates, the outer end of the linkage rod 21 abuts against the inner side of one side of the double-head impact plate 22 and impacts, the double-head impact plate 22 impacts left and right in the inside of the isolation plate 19, the left and right impacts of the double-head impact plate 22 impact the two groups of storage boxes 23, coarse materials and fine materials stored in the two groups of storage boxes 23 are vibrated, then coarse materials and fine materials are tiled in the two groups of storage boxes 23, after screening of the device is completed, the linkage rod 12 is driven to scrape the surface of the electromagnetic iron plate 11 through pulling the linkage frame 26, iron powder and the like adsorbed on the top surface of the electromagnetic iron plate 11 are scraped, and after iron powder is scraped, the electromagnetic iron plate 11 is stopped.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and are not limiting thereof; although the present application has been described in detail with reference to the foregoing embodiments, one of ordinary skill in the art will appreciate that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not drive the essence of the corresponding technical solutions to depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (9)

1. The utility model provides a solid useless burning furnace refractory material sieve powder equipment that burns, includes main box (1), its characterized in that: the bottom of the inner cavity top plate of the main box body (1) is provided with a fixing frame, a driving motor (6) is arranged in the fixing frame, a stirring rod (7) is fixedly sleeved outside an output shaft of the driving motor (6), diamond-shaped columns (9) are fixedly connected to the bottom of the stirring rod (7), supporting plates (10) are fixedly connected to two sides of the inner part of the main box body (1), an electromagnetic iron plate (11) is arranged outside the supporting plates (10), a linkage frame (12) is sleeved inside the outer side of the main box body (1) in a sliding mode, one end fixedly connected with magnetic force scraper blade (13) of link frame (12), link frame (12) are located outside one end fixedly connected with linkage hand rest (26) of main tank body (1), the below fixedly connected with screening plate (18) of main tank body (1) inner wall, the inside slip of main tank body (1) outer wall one side has cup jointed linkage scraper blade (25), the bottom fixedly connected with division board (19) of screening plate (18), the internally mounted of division board (19) has motor (20), the outside fixed gangbar (21) that has cup jointed of motor (20) output shaft.

2. The solid waste incinerator refractory material screening device according to claim 1, wherein: the inside of division board (19) is equipped with the standing groove, motor (20) are located the standing groove inside, the notch has been seted up to the both sides of division board (19), and the inside slip of notch has cup jointed double-end striking board (22).

3. The solid waste incinerator refractory material screening device according to claim 2, wherein: the inner cavity of the main box body (1) is positioned at two sides of the isolation plate (19) and is sleeved with the storage box (23) in a sliding manner, two sides of the double-head impact plate (22) are arc-shaped, and the inner side of the double-head impact plate (22) is propped against the outer side of the linkage rod (21).

4. The solid waste incinerator refractory material screening device according to claim 1, wherein: the screening plate (18) is divided into an upper layer and a lower layer, the upper layer and the lower layer are arranged at an included angle, a filtering hole is formed in the top layer of the screening plate (18), and the bottom end of the linkage scraping plate (25) is propped against the top end of the screening plate (18).

5. A solid waste incinerator refractory material screening apparatus according to claim 3, wherein: the left side of screening board (18) offsets with the left wall of main box (1) inner chamber, the contained angle department of screening board (18) does not contact with the right wall of main box (1) inner chamber, just containing box (23) are located the both sides of screening board (18) bottom respectively.

6. The solid waste incinerator refractory material screening device according to claim 1, wherein: the top fixedly connected with feeding case (2) of main box (1), top rotation of feeding case (2) has cup jointed top cap (3), the top of top cap (3) is equipped with inlet pipe (4), puddler (7) are located the inside of feeding case (2), the outside fixedly connected with wallboard (8) of puddler (7) one end.

7. The solid waste incinerator refractory material screening device according to claim 6, wherein: the filter screen (24) has been seted up to the both sides of feeding case (2), the outside both sides fixedly connected with of feeding case (2) arranges material pipe (5), the both sides at main tank body (1) top have been seted up and have been leaked the groove, and leak groove and arrange material pipe (5) intercommunication each other, the one end of wallboard (8) offsets with the inner wall of feeding case (2).

8. The solid waste incinerator refractory material screening device according to claim 1, wherein: the utility model discloses a novel energy-saving box, including main box (1) inner wall, supporting plate (10) below fixedly connected with water conservancy diversion frame (14), the externally mounted of main box (1) has servo motor (15), the outside fixed sleeve of servo motor (15) output shaft has broken roller (16), broken roller (16) are located the inside of water conservancy diversion frame (14), the blown down tank has been seted up at the middle part of water conservancy diversion frame (14) bottom, and the bottom fixedly connected with deflector (17) of water conservancy diversion frame (14).

9. A screening process of a solid waste incinerator refractory screening apparatus according to any one of claims 1 to 8, comprising the steps of:

s1, firstly, feeding the clinker required by the solid waste incinerator with refractory materials into the feeding box (2) through the feeding pipe (4), then starting the driving motor (6), driving the stirring rod (7) to rotate in the feeding box (2) through the driving motor (6), enabling the stirring rod (7) to respectively drive the wall plate (8) and the diamond column (9) to mix and stir the clinker required by the solid waste incinerator with refractory materials in the feeding box (2), and performing preliminary crushing, enabling the refractory material clinker meeting the specification to enter the discharging pipe (5) through the pushing of the wall plate (8) through the filter screen (24), entering the main box (1) through the discharging pipe (5), then starting the electromagnetic iron plate (11), enabling the electromagnetic iron plate (11) to generate magnetic force through electrifying, adsorbing iron impurities and the like in the clinker, and enabling the rest clinker to fall into the top of the guide frame (14) under the adsorption of the electromagnetic triple iron plate (11).

S2, after clinker falls into two side baffles at the top of the guide frame (14), the clinker falls into the inner side of the guide frame (14) and falls to the crushing roller (16) through the drainage of the baffles at the top, then the servo motor (15) is started, the crushing roller (16) is driven to rotate through the servo motor (15), the clinker is crushed and crushed, the clinker after crushing falls into the top of the guide plate (17), the clinker after crushing falls into the top of the screening plate (18) through the guide of the guide plate (17), the clinker falling into the top of the screening plate (18) passes through the inclined top layer of the screening plate (18) and the filtering holes thereof, coarse materials in the clinker are intercepted by the top layer of the screening plate (18) and fall into the top of the bottom layer of the screening plate (18), and the fine chat falls into the inside of the left side storage box (23) through the guide of the bottom layer of the screening plate (18), so that the screening and storage of refractory materials required by the solid waste incinerator are completed.

S3, when coarse materials and fine materials in clinker are screened and respectively collected in two groups of storage boxes (23) in a refractory material required by the solid waste incinerator, a motor (20) is started, a linkage rod (21) is driven to rotate through the motor (20), when the linkage rod (21) rotates, the outer end of the linkage rod (21) abuts against the inner side of one side of a double-head impact plate (22) and impacts, the double-head impact plate (22) impacts left and right in the inside of a separation plate (19), the double-head impact plate (22) impacts the two groups of storage boxes (23) in a left and right manner, coarse materials and fine materials contained in the two groups of storage boxes (23) are vibrated, then the coarse materials and the fine materials are paved in the two groups of storage boxes (23), after the screening is completed, a linkage hand frame (26) is pulled outwards, a magnetic force scraper (13) is pulled on the surface of an electromagnetic iron plate (11) by pulling, the electromagnetic iron plate (11) is scraped, the surface of the electromagnetic iron plate (11) is scraped, and the electromagnetic iron plate (11) is adsorbed and the like can be stopped after the screening is completed.

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