阅读说明：本技术 碳素固废材料制备增碳剂的生产处理设备 (Production treatment equipment for preparing carburant from carbon solid waste material ) 是由 王道国 于 2021-07-20 设计创作，主要内容包括：本发明涉及一种碳素材料领域,尤其涉及一种碳素固废材料制备增碳剂的生产处理设备。技术问题为：提供一种碳素固废材料制备增碳剂的生产处理设备。技术方案是：一种碳素固废材料制备增碳剂的生产处理设备,包括有废料箱、支撑台、滑槽台、第一支撑架、第二支撑架、第一连接架、涂覆组件和收集组件；收集组件与第一支撑架进行连接。本发明使用时实现了使球形产品反复转动同时对其表面进行涂刷树脂,使其表面树脂涂刷均匀,涂刷简单同时避免树脂堆叠多层导致烘干后产品外观差的问题,并对产品输送过程中掉落的碎屑进行清理避免对整体加工造成不良影响。(The invention relates to the field of carbon materials, in particular to production and treatment equipment for preparing a carburant from a carbon solid waste material. The technical problem is as follows: provides a production treatment device for preparing carburant from carbon solid waste material. The technical scheme is as follows: a production treatment device for preparing carburant from carbon solid waste materials comprises a waste material box, a supporting table, a chute table, a first supporting frame, a second supporting frame, a first connecting frame, a coating assembly and a collecting assembly; the collecting assembly is connected with the first support frame. When the spherical product conveying device is used, the spherical product is repeatedly rotated, the surface of the spherical product is coated with resin, the resin on the surface of the spherical product is uniformly coated, the coating is simple, the problem of poor appearance of the dried product caused by the fact that the resin is stacked in multiple layers is solved, and chips falling off in the product conveying process are cleaned to avoid adverse effects on the whole processing.)

1. A production treatment device for preparing carburant from carbon solid waste materials comprises a bottom frame (1), support columns (2), a base plate (3), a waste box (4), a support table (5), a chute table (6), a first support frame (7), a second support frame (8) and a first connecting frame (9); four corners of the bottom surface of the bottom frame (1) are fixedly connected with a group of support columns (2) respectively; the four groups of support columns (2) are fixedly connected with a group of backing plates (3) respectively; the bottom frame (1) is fixedly connected with a waste bin (4), a supporting table (5), a sliding chute table (6), a first supporting frame (7), a second supporting frame (8) and a first connecting frame (9); it is characterized by also comprising a coating component and a collecting component; a coating component is arranged in the middle above the bottom frame (1); the coating component is connected with a second support frame (8); the coating component coats a resin layer on the surface of the spherical product; the middle part and the right side above the underframe (1) are provided with collecting components; the collecting component is fixedly connected with the supporting platform (5); the collecting component is connected with the chute table (6); the collecting component is connected with the first supporting frame (7); the collecting assembly collects the resin-coated product.

2. The production treatment equipment for preparing the carburant from the carbon solid waste material according to claim 1, wherein the coating assembly comprises a first bevel gear (501), a coating roller (502), a grease sticking ball (503), a second fixed shaft (504), a second fixed plate (505), a resin box (506), a second translation sliding rail (507), a first translation sliding plate (508), a second translation sliding plate (509), a two-way screw rod (510), a flat gear (511), a third fixed shaft (512), a second electric sliding block (513), a second electric sliding rail (514), a rack (515), a third electric sliding block (516), a third electric sliding rail (517), a second connecting frame (518), a resin cylinder (519), a guide pipe (520), a sliding sleeve (521), a pressing plate (522), a resin tank (523), a second electric push rod (524), a first lifting sliding plate (525), a second lifting sliding rail (526), A second elastic element (527), a spring (528), a first sliding rod (529), a circular arc sieve plate (530) and a porous lug disc (531); the first bevel gear (501) is fixedly connected with the coating roller (502); the coating roller (502) is rotationally connected with the second support frame (8); the coating roller (502) is in transmission connection with four groups of grease sticking balls (503); the four groups of grease sticking balls (503) are fixedly connected with a second fixed shaft (504) at equal intervals; two sides of the second fixed shaft (504) are fixedly connected with a group of second fixed plates (505) respectively; the two groups of second fixing plates (505) are fixedly connected with the resin box (506); a group of second connecting frames (518) are fixedly connected to both sides of the resin box (506); a second translation slide rail (507) is arranged below the resin box (506); the second translation sliding rail (507) is respectively connected with the first translation sliding plate (508) and the second translation sliding plate (509) in a sliding way; the second translation sliding rail (507) is fixedly connected with a third fixed shaft (512); the first translation sliding plate (508) and the second translation sliding plate (509) are respectively screwed with two sides of the bidirectional screw rod (510); two sides of the bidirectional screw rod (510) are rotationally connected with the second translation sliding rail (507) through connecting blocks; the bidirectional screw rod (510) is fixedly connected with the flat gear (511); four groups of second translation sliding rails (507), first translation sliding plates (508), second translation sliding plates (509), bidirectional screw rods (510) and a flat gear (511) are equidistantly arranged on the third fixed shaft (512); two sides of the third fixed shaft (512) are rotatably connected with a group of second electric sliding blocks (513) through torsion springs (528); the two groups of second electric sliding blocks (513) are respectively in sliding connection with the group of second electric sliding rails (514); the two groups of second electric slide rails (514) are fixedly connected with the underframe (1); a rack (515) is arranged above the flat gear (511); the rack (515) is fixedly connected with the two groups of third electric sliding blocks (516); the two groups of third electric sliding blocks (516) are in sliding connection with the third electric sliding rails (517); two sides of the third electric slide rail (517) are fixedly connected with a group of second connecting frames (518) respectively; a resin cylinder (519) is arranged above the coating roller (502); the resin cylinder (519) is fixedly connected with the two groups of guide pipes (520); the two groups of guide pipes (520) are fixedly connected with the resin tank (523); the sliding sleeve (521) is fixedly connected with the resin cylinder (519); a pressure plate (522) is arranged above the sliding sleeve (521); the pressure plate (522) is fixedly connected with the first sliding rod (529); the pressure plate (522) is fixedly connected with the spring (528); the resin tank (523) is fixedly connected with the two groups of second electric push rods (524); two groups of second electric push rods (524) are fixedly connected with the second support frame (8); a first lifting sliding plate (525) is arranged on the side surface of the resin cylinder (519); two sides of the first lifting sliding plate (525) are respectively connected with a group of second lifting sliding rails (526) in a sliding manner; two sides of the first lifting sliding plate (525) are fixedly connected with one side of a group of second elastic pieces (527) respectively; the other sides of the two groups of second elastic pieces (527) are fixedly connected with a group of second lifting slide rails (526) respectively; the two groups of second lifting slide rails (526) are fixedly connected with the second support frame (8); a combination of a first lifting sliding plate (525), a second lifting sliding rail (526) and a second elastic piece (527) is symmetrically arranged by taking the central axis of the pressing plate (522) as a symmetry axis; the spring (528) is fixedly connected with the sliding sleeve (521); the first sliding rod (529) is in sliding connection with the sliding sleeve (521); the first sliding rod (529) is fixedly connected with the arc-shaped sieve plate (530); the arc-shaped sieve plate (530) is in sliding connection with the resin cylinder (519); the circular arc sieve plate (530) is in sliding connection with the porous lug disc (531); the porous lug disc (531) is fixedly connected with the resin cylinder (519); four groups of combinations of resin cylinders (519), guide pipes (520), sliding sleeves (521), pressure plates (522), springs (528), first sliding rods (529), circular arc-shaped sieve plates (530) and porous lug discs (531) are arranged below the resin tank (523) at equal intervals.

3. The production and treatment equipment for preparing the carburant from the carbon solid waste material according to claim 2, wherein the collection assembly comprises a main motor (601), a first transmission rod (602), a first shaft sleeve (603), a second bevel gear (604), a first fixing frame (605), a third electric push rod (606), a first transmission wheel (607), a second transmission wheel (608), a second transmission rod (609), a second shaft sleeve (610), a third bevel gear (611), a fourth bevel gear (612), a second fixing frame (613), a telescopic rod (614), an electric sliding plate (615), a hook rod (616), an arc-shaped scraper (617), a fourth electric sliding rail (618), a third fixing plate (619), a one-way screw (620), a fifth bevel gear (621), a fifth electric sliding rail (622), a fourth fixing plate (623), a second sliding rod (624), a second arc-shaped groove plate (625), A collection box (626) and a handle (627); the main motor (601) is fixedly connected with the support table (5); the output shaft of the main motor (601) is rotationally connected with the first transmission rod (602); the first transmission rod (602) is rotationally connected with the underframe (1); the first transmission rod (602) is in transmission connection with the first shaft sleeve (603); the first shaft sleeve (603) is fixedly connected with the second bevel gear (604); the first shaft sleeve (603) is rotationally connected with the first fixing frame (605); the first fixed frame (605) is fixedly connected with the third electric push rod (606); the third electric push rod (606) is fixedly connected with the underframe (1); the first driving wheel (607) is fixedly connected with the first driving rod (602); the first transmission wheel (607) is in transmission connection with the second transmission wheel (608) through a belt; the second driving wheel (608) is fixedly connected with a second transmission rod (609); the second transmission rod (609) is rotatably connected with the underframe (1); the second transmission rod (609) is in transmission connection with the second shaft sleeve (610); two sides of the second shaft sleeve (610) are fixedly connected with a third bevel gear (611) and a fourth bevel gear (612) respectively; the second shaft sleeve (610) is rotationally connected with the second fixed frame (613); the second fixed frame (613) is fixedly connected with one side of the telescopic rod (614); the other side of the telescopic rod (614) is fixedly connected with the electric skateboard (615); two sides of the electric sliding plate (615) are respectively connected with a fourth electric sliding rail (618) and a fifth electric sliding rail (622) in a sliding manner; four groups of hook rods (616) are fixedly connected to the side surface of the electric skateboard (615) at equal intervals; the four groups of hook rods (616) are respectively fixedly connected with a group of arc-shaped scrapers (617); a fourth electric slide rail (618) is fixedly connected with a third fixing plate (619); the third fixing plate (619) is screwed with the one-way screw rod (620); the one-way screw rod (620) is rotationally connected with the first support frame (7); the one-way screw rod (620) is fixedly connected with the fifth bevel gear (621); the fifth electric slide rail (622) is fixedly connected with the fourth fixing plate (623); the fourth fixed plate (623) is connected with the second sliding rod (624) in a sliding way; the second sliding rod (624) is fixedly connected with the first support frame (7); a second arc-shaped groove plate (625) is arranged below the arc-shaped scraper (617); the second arc-shaped groove plate (625) is fixedly connected with the sliding chute table (6); a collecting box (626) is arranged on the side surface of the second arc-shaped groove plate (625); the collection box (626) is in sliding connection with the chute table (6); the collecting box (626) is fixedly connected with the handle (627).

4. The production and treatment equipment for preparing the carburant from the carbon solid waste material as claimed in claim 2, wherein four sets of arc-shaped grooves are arranged on the coating roller (502).

5. The production and treatment equipment for preparing the carburant from the carbon solid waste material as claimed in claim 2, wherein the top of the second translation sliding plate (509) is provided with a wedge-shaped block.

6. The production and treatment equipment for preparing the carburant from the carbon solid waste material as claimed in claim 2, wherein the bottom surface of the resin cylinder (519) is provided with an arc concave surface and a plurality of groups of round holes.

7. The apparatus for producing and treating carburant from carbon solid waste material as claimed in claim 3, wherein the curved portion of the hook lever (616) is provided with a certain elasticity.

8. The apparatus for producing and treating carburant from carbon solid waste material as claimed in claim 3, wherein the shape of the arc scraper (617) matches the shape of the groove of the second arc groove plate (625).

Technical Field

The invention relates to the field of carbon materials, in particular to production and treatment equipment for preparing a carburant from a carbon solid waste material.

Background

The carbon material has the characteristics of good chemical stability, high temperature resistance, corrosion resistance, self-lubrication, low elastic modulus, good conductivity and the like, and is widely applied to the fields of national defense science and technology, military products, aerospace, nonferrous metallurgy and the like.

In the prior art, carbon solid waste materials can be used for preparing a carburant, the carbon solid waste raw materials are crushed and sieved, purified and mixed with a binder, then the mixture is fed into a kneading machine for stirring and kneading to obtain paste, flax fiber filaments and bamboo fiber filaments are added into the paste for uniform stirring, the paste is conveyed into a forming machine for pressing to be spherical, the outer surface of a formed product is coated with a resin surface layer, and then the paste is dried; when applying paint the resin to fashioned product surface, need rotate the workstation that holds the product many times to this changes the face of scribbling of product, and a spherical product need apply paint many times, and the resin piles up many times when applying paint, and the poor stoving post-forming product surface outward appearance of surface flatness is poor, causes harmful effects to the product sale, and the product bottom is applied paint need make its upset itself just can apply paint, and the processing step is loaded down with trivial details complicated.

In combination with the above problems, a production and treatment device for preparing carburant from carbon solid waste materials is urgently needed to solve the above problems.

Disclosure of Invention

In order to overcome the defect that the carbon solid waste material can be used for preparing a carburant, the carbon solid waste raw material is crushed and sieved, purified and mixed with a binder, then the mixture is sent into a kneading machine for stirring and kneading to obtain a paste, flax fiber filaments and bamboo fiber filaments are added into the paste for uniform stirring, the paste is sent into a forming machine for pressing to be spherical, the outer surface of a formed product is coated with a resin surface layer, and then the drying is carried out; when applying paint the resin to fashioned product surface, need rotate the workstation that holds the product many times to this changes the face of brushing of product, and a spherical product need apply paint many times, and the resin piles up many times when applying paint, and the poor stoving shaping back product surface outward appearance of surface flatness is poor, causes harmful effects to the product sale, and the product bottom is applied paint need make its upset itself just can apply paint, the loaded down with trivial details complicated shortcoming of processing step, and the technical problem is: provides a production treatment device for preparing carburant from carbon solid waste material.

The technical scheme is as follows: production and treatment equipment for preparing carburant from carbon solid waste materials comprises an underframe, support columns, a base plate, a waste material box, a support table, a chute table, a first support frame, a second support frame, a first connecting frame, a coating assembly and a collecting assembly; four corners of the bottom surface of the underframe are fixedly connected with a group of support columns respectively; the four groups of support columns are fixedly connected with one group of base plates respectively; the bottom frame is fixedly connected with the waste bin, the supporting table, the chute table, the first supporting frame, the second supporting frame and the first connecting frame; a coating component is arranged in the middle above the underframe; the coating assembly is connected with the second support frame; the coating component coats a resin layer on the surface of the spherical product; the middle part and the right side above the underframe are provided with collecting components; the collecting assembly is fixedly connected with the supporting platform; the collecting assembly is connected with the chute table; the collecting assembly is connected with the first supporting frame; the collecting assembly collects the resin-coated product.

Further, the coating assembly comprises a first bevel gear, a coating roller, a grease sticking ball, a second fixed shaft, a second fixed plate, a resin box, a second translation sliding rail, a first translation sliding plate, a second translation sliding plate, a two-way screw rod, a flat gear, a third fixed shaft, a second electric sliding block, a second electric sliding rail, a rack, a third electric sliding block, a third electric sliding rail, a second connecting frame, a resin barrel, a conduit, a sliding sleeve, a pressing plate, a resin tank, a second electric push rod, a first lifting sliding plate, a second lifting sliding rail, a second elastic element, a spring, a first sliding rod, an arc-shaped sieve plate and a porous lug disc; the first bevel gear is fixedly connected with the coating roller; the coating roller is rotationally connected with the second support frame; the coating roller is in transmission connection with the four groups of grease sticking balls; the four groups of grease sticking balls are fixedly connected with a second fixed shaft at equal intervals; two sides of the second fixed shaft are fixedly connected with a group of second fixed plates respectively; the two groups of second fixing plates are fixedly connected with the resin box; a group of second connecting frames are fixedly connected to two sides of the resin box; a second translation slide rail is arranged below the resin box; the second translation sliding rail is in sliding connection with the first translation sliding plate and the second translation sliding plate respectively; the second translation sliding rail is fixedly connected with a third fixed shaft; the first translation sliding plate and the second translation sliding plate are respectively in screwed connection with two sides of the bidirectional screw rod; two sides of the bidirectional screw rod are rotationally connected with the second translation sliding rail through connecting blocks; the bidirectional screw rod is fixedly connected with the flat gear; the third fixed shaft is equidistantly provided with four groups of second translation sliding rails, a first translation sliding plate, a second translation sliding plate, a bidirectional screw rod and a flat gear; two sides of the third fixed shaft are rotatably connected with a group of second electric sliding blocks through torsion springs; the two groups of second electric sliding blocks are respectively connected with the one group of second electric sliding rails in a sliding manner; the two groups of second electric slide rails are fixedly connected with the underframe; a rack is arranged above the flat gear; the rack is fixedly connected with the two groups of third electric sliding blocks; the two groups of third electric sliding blocks are in sliding connection with the third electric sliding rails; two sides of the third electric slide rail are fixedly connected with a group of second connecting frames respectively; a resin cylinder is arranged above the coating roller; the resin cylinder is fixedly connected with the two groups of guide pipes; the two groups of guide pipes are fixedly connected with the resin tank; the sliding sleeve is fixedly connected with the resin cylinder; a pressing plate is arranged above the sliding sleeve; the pressing plate is fixedly connected with the first sliding rod; the pressing plate is fixedly connected with the spring; the resin tank is fixedly connected with the two groups of second electric push rods; the two groups of second electric push rods are fixedly connected with the second support frame; a first lifting sliding plate is arranged on the side surface of the resin cylinder; two sides of the first lifting sliding plate are respectively connected with a group of second lifting sliding rails in a sliding manner; two sides of the first lifting sliding plate are fixedly connected with one side of the group of second elastic pieces respectively; the other sides of the two groups of second elastic pieces are fixedly connected with a group of second lifting slide rails respectively; the two groups of second lifting slide rails are fixedly connected with the second support frame; a combination of a first lifting sliding plate, a second lifting sliding rail and a second elastic piece is symmetrically arranged by taking the central axis of the pressing plate as a symmetry axis; the spring is fixedly connected with the sliding sleeve; the first sliding rod is in sliding connection with the sliding sleeve; the first sliding rod is fixedly connected with the arc-shaped sieve plate; the arc-shaped sieve plate is connected with the resin cylinder in a sliding manner; the circular arc sieve plate is in sliding connection with the porous lug disc; the porous lug disc is fixedly connected with the resin cylinder; the lower part of the resin tank is equidistantly provided with four groups of resin cylinders, guide pipes, sliding sleeves, pressing plates, springs, first sliding rods, circular arc sieve plates and porous lug discs.

Further, the collecting assembly comprises a main motor, a first transmission rod, a first shaft sleeve, a second bevel gear, a first fixing frame, a third electric push rod, a first transmission wheel, a second transmission rod, a second shaft sleeve, a third bevel gear, a fourth bevel gear, a second fixing frame, a telescopic rod, an electric sliding plate, a hook rod, an arc-shaped scraper blade, a fourth electric sliding rail, a third fixing plate, a one-way screw rod, a fifth bevel gear, a fifth electric sliding rail, a fourth fixing plate, a second sliding rod, a second arc-shaped groove plate, a collecting box and a handle; the main motor is fixedly connected with the support platform; the output shaft of the main motor is rotationally connected with the first transmission rod; the first transmission rod is rotatably connected with the bottom frame; the first transmission rod is in transmission connection with the first shaft sleeve; the first shaft sleeve is fixedly connected with the second bevel gear; the first shaft sleeve is rotatably connected with the first fixing frame; the first fixing frame is fixedly connected with the third electric push rod; the third electric push rod is fixedly connected with the underframe; the first driving wheel is fixedly connected with the first driving rod; the first driving wheel is in transmission connection with the second driving wheel through a belt; the second driving wheel is fixedly connected with the second transmission rod; the second transmission rod is rotatably connected with the underframe; the second transmission rod is in transmission connection with the second shaft sleeve; two sides of the second shaft sleeve are fixedly connected with a third bevel gear and a fourth bevel gear respectively; the second shaft sleeve is rotationally connected with the second fixing frame; the second fixing frame is fixedly connected with one side of the telescopic rod; the other side of the telescopic rod is fixedly connected with the electric sliding plate; two sides of the electric sliding plate are respectively connected with the fourth electric sliding rail and the fifth electric sliding rail in a sliding manner; four groups of hook rods are fixedly connected to the side surface of the electric skateboard at equal intervals; the four groups of hook rods are respectively fixedly connected with a group of arc-shaped scrapers; the fourth electric slide rail is fixedly connected with the third fixing plate; the third fixing plate is in screwed connection with the one-way screw rod; the one-way screw rod is rotationally connected with the first support frame; the one-way screw rod is fixedly connected with the fifth bevel gear; the fifth electric slide rail is fixedly connected with the fourth fixing plate; the fourth fixed plate is in sliding connection with the second sliding rod; the second slide bar is fixedly connected with the first support frame; a second arc-shaped groove plate is arranged below the arc-shaped scraper plate; the second arc-shaped groove plate is fixedly connected with the sliding chute platform; a collecting box is arranged on the side surface of the second arc-shaped groove plate; the collecting box is connected with the chute platform in a sliding way; the collecting box is fixedly connected with the handle.

Further, four groups of arc-shaped grooves are arranged on the coating roller.

Further, a wedge-shaped block is arranged at the top of the second translation sliding plate.

Further, the bottom surface of the resin cylinder is provided with an arc concave surface and a plurality of groups of round holes.

Further, the curved portion of the hook rod is provided with a certain elasticity.

Further, the arc-shaped scraper plate is matched with the groove shape of the second arc-shaped groove plate.

The invention has the advantages that: firstly, in order to solve the problem that carbon solid waste materials can be used for preparing a carburant in the prior art, crushing and screening carbon solid waste raw materials, purifying and mixing the raw materials with a binder, then sending the mixture into a kneading machine for stirring and kneading to obtain a paste material, then adding flax fiber filaments and bamboo fiber filaments into the paste material for uniformly stirring, sending the paste material into a forming machine for pressing to prepare a spherical shape, coating the outer surface of a formed product with a resin surface layer, and then drying the resin surface layer; when applying paint the resin to fashioned product surface, need rotate the workstation that holds the product many times to this changes the face of scribbling of product, and a spherical product need apply paint many times, and the resin piles up many times when applying paint, and the poor stoving post-forming product surface outward appearance of surface flatness is poor, causes harmful effects to the product sale, and the product bottom is applied paint need make its upset itself just can apply paint, the loaded down with trivial details complicated problem of processing step.

The blanking assembly is arranged, the coating assembly and the collecting assembly are arranged, when the device is ready for working, the device is placed on a horizontal plane, the power is switched on and is externally connected with a controller, paste is pressed into a sphere by a forming machine and then is conveyed to the blanking assembly on the underframe supported by the first supporting column and the base plate, the spherical product is conveyed to the coating assembly under the second supporting frame through the blanking assembly, after the blanking is completed, the blanking assembly connected with the first connecting frame can be self-cleaned, waste materials are cleaned in a waste material box, meanwhile, the collecting assembly fixedly connected with the supporting table drives the coating assembly to coat resin on the surface of the product, and after the coating is completed, the product is collected by the collecting assembly connected with the chute table and the first supporting frame, so that subsequent processing treatment can be carried out.

When the spherical product conveying device is used, the spherical product is repeatedly rotated, meanwhile, resin is coated on the surface of the spherical product, the resin coating on the surface of the spherical product is uniform, the coating is simple, the problem that the appearance of the dried product is poor due to the fact that multiple layers of resin are stacked is solved, and chips falling in the product conveying process are cleaned, so that the adverse effect on the whole processing is avoided.

Drawings

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

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

FIG. 3 is a schematic view of a first perspective structure of the blanking assembly of the present invention;

FIG. 4 is a second perspective view of the blanking assembly of the present invention;

FIG. 5 is a schematic view of a partial perspective structure of the blanking assembly of the present invention;

FIG. 6 is a schematic view of a first perspective view of the coating assembly of the present invention;

FIG. 7 is a second perspective view of the coating assembly of the present invention;

FIG. 8 is a schematic view of a first partial perspective of a coating assembly of the present invention;

FIG. 9 is a second partial perspective view of the coating assembly of the present invention;

FIG. 10 is a third partial perspective view of the coating assembly of the present invention;

FIG. 11 is a fourth partial perspective view of the coating assembly of the present invention;

FIG. 12 is a side view of a coating assembly of the present invention;

FIG. 13 is a schematic view of a first perspective view of the collection assembly of the present invention;

FIG. 14 is a second perspective view of the collection assembly of the present invention;

FIG. 15 is a top view of the collection assembly of the present invention.

Part names and serial numbers in the figure: 1_ chassis, 2_ support column, 3_ backing plate, 4_ waste bin, 5_ support table, 6_ chute table, 7_ first support frame, 8_ second support frame, 9_ first connection frame, 401_ first electric slide rail, 402_ first electric slide block, 403_ first electric push rod, 404_ first fixed plate, 405_ arc brush plate, 406_ first arc groove plate, 407_ arc guide plate, 408_ first fixed shaft, 409_ cam, 410_ translation slide block, 411_ first translation slide rail, 412_ first elastic member, 413_ L-shaped baffle, 501_ first bevel gear, 502_ coating roller, 503_ grease ball, 504_ second fixed shaft, 505_ second fixed plate, 506_ resin tank, 507_ second translation slide rail, 508_ first translation slide plate, 509_ second translation slide plate, 510_ bidirectional screw, 511_ flat gear, 512_ third fixed shaft, 513_ second electric slide block, 514_ second electric slide rail, 515_ rack, 516_ third electric slide block, 517_ third electric slide rail, 518_ second connecting frame, 519_ resin cylinder, 520_ guide tube, 521_ slide sleeve, 522_ press plate, 523_ resin tank, 524_ second electric push rod, 525_ first lifting slide plate, 526_ second lifting slide rail, 527_ second elastic member, 528_ spring, 529_ first slide bar, 530_ circular arc sieve plate, 531_ porous lug disc, 601_ main motor, 602_ first transmission rod, 603_ first sleeve, 604_ second conical gear, 605_ first fixed frame, 606_ third electric push rod, 607_ first transmission wheel, 609_ second transmission wheel, 610_ second transmission rod, 610_ second sleeve, 611_ third bevel gear, 612_ fourth bevel gear, 613_ second fixed frame, 614_ telescopic rod, 615_ electric slide plate, 616_ hook rod, 617_ arc scraper, 618_ fourth electric slide rail, 619_ third fixed plate, 620_ one-way screw rod, 621_ fifth bevel gear, 622_ fifth electric slide rail, 623_ fourth fixed plate, 624_ second slide bar, 625_ second arc-shaped groove plate, 626_ collection box, 627_ handle.

Detailed Description

The technical scheme of the invention is further explained by combining the attached drawings.

Examples

Production and treatment equipment for preparing carburant from carbon solid waste materials is shown in figures 1-2 and comprises an underframe 1, support columns 2, a base plate 3, a waste bin 4, a support table 5, a chute table 6, a first support frame 7, a second support frame 8, a first connecting frame 9, a coating assembly and a collecting assembly; four corners of the bottom surface of the underframe 1 are fixedly connected with a group of support columns 2 respectively; the four groups of support columns 2 are respectively fixedly connected with a group of backing plates 3; the underframe 1 is fixedly connected with a waste bin 4, a support table 5, a chute table 6, a first support frame 7, a second support frame 8 and a first connecting frame 9; a coating component is arranged in the middle of the upper part of the underframe 1; the coating assembly is connected with a second support frame 8; the coating component coats a resin layer on the surface of the spherical product; the middle part and the right side above the underframe 1 are provided with collecting components; the collecting component is fixedly connected with the supporting platform 5; the collecting assembly is connected with the chute table 6; the collecting component is connected with the first supporting frame 7; the collecting assembly collects the resin-coated product.

When the device is prepared, the device is placed on a horizontal plane, a power supply is connected and is externally connected with a controller, paste materials are pressed into balls by a forming machine and then are conveyed to a blanking assembly on an underframe 1 supported by a first support column 2 and a base plate 3, the spherical products are conveyed to a coating assembly under a second support frame 8 through the blanking assembly, after blanking is completed, the blanking assembly connected with a first connecting frame 9 can be self-cleaned, waste materials are cleaned into a waste material box 4, meanwhile, the collecting assembly fixedly connected with a support table 5 drives the coating assembly to coat resin on the surfaces of the products, and after coating is completed, the products are collected by the collecting assembly connected with a chute table 6 and a first support frame 7 so as to be processed subsequently; when the spherical product conveying device is used, the spherical product is repeatedly rotated, the surface of the spherical product is coated with resin, the resin on the surface of the spherical product is uniformly coated, the coating is simple, the problem of poor appearance of the dried product caused by the fact that the resin is stacked in multiple layers is solved, and chips falling off in the product conveying process are cleaned to avoid adverse effects on the whole processing.

Referring to fig. 3-5, the blanking device further includes a blanking assembly, where the blanking assembly includes a first electric slide rail 401, a first electric slide block 402, a first electric push rod 403, a first fixing plate 404, an arc brush plate 405, a first arc groove plate 406, an arc guide plate 407, a first fixing shaft 408, a cam 409, a translational slide block 410, a first translational slide rail 411, a first elastic element 412, and an L-shaped baffle 413; the first electric slide rail 401 is fixedly connected with the second support frame 8; the first electric slide rail 401 is connected with the first electric slide block 402 in a sliding manner; the first electric slide block 402 is fixedly connected with a first electric push rod 403; the first electric push rod 403 is fixedly connected with the first fixing plate 404; four groups of arc-shaped brush plates 405 are fixedly connected to the bottom surface of the first fixing plate 404 at equal intervals; a first electric slide rail 401, a first electric slide block 402 and a first electric push rod 403 are symmetrically arranged on two sides of the first fixing plate 404; a first arc-shaped groove plate 406 is arranged below the first fixing plate 404; four groups of arc-shaped guide plates 407 are fixedly connected to the first arc-shaped groove plate 406 and the side surface at equal intervals; the first arc-shaped groove plate 406 is fixedly connected with the first fixed shaft 408; the first fixed shaft 408 is fixedly connected with the cam 409; the first fixed shaft 408 is rotatably connected with the translational sliding block 410 through a torsion spring 528; the translation slider 410 is slidably connected with the first translation sliding rail 411; the first translation sliding rail 411 is fixedly connected with the first connecting frame 9; the first sliding rail 411 is fixedly connected to one side of the first elastic member 412; the other side of the first elastic piece 412 is fixedly connected with the translation sliding block 410; the L-shaped baffle 413 is fixedly connected with the first translation sliding rail 411; the L-shaped baffle 413 is in contact with the cam 409.

The product pressed into a ball shape rolls down through the four groups of arc-shaped guide plates 407 and then rolls into the coating assembly through the grooves of the first arc-shaped groove plate 406, chips can fall off when the product rolls through the arc-shaped guide plates 407 and the first arc-shaped groove plate 406, and the subsequent product surface adhesion can be caused without cleaning, so that the surface of the product coated with a resin layer is uneven, after the product passes through the first arc-shaped groove plate 406, the two groups of first electric push rods 403 simultaneously extend to push the first fixing plate 404 to drive the four groups of arc-shaped brush plates 405 to downwards and further fit the grooves of the first arc-shaped groove plate 406, then the two groups of first electric slide blocks 402 simultaneously slide in the two groups of first electric slide rails 401, so that the first fixing plate 404 drives the four groups of arc-shaped brush plates 405 to slide in the grooves of the first arc-shaped groove plate 406 to clean the four groups of arc-shaped brush plates 405, when the four groups of arc-shaped brush plates 405 slide onto the four groups of arc-shaped guide plates 407, downward pressure is applied to the arc-shaped guide plates 407, so that the first arc-shaped groove plates 406 drive the first fixed shafts 408 to rotate in the translation sliding blocks 410, meanwhile, the first fixed shafts 408 drive the cams 409 to rotate, the cams 409 are extruded with the L-shaped baffle 413, the translation sliding blocks 410 slide in the first translation sliding rails 411, the first elastic members 412 are stretched, the first arc-shaped groove plates 406 are further away from the coating assembly, the first arc-shaped groove plates 406 are prevented from being blocked by the coating assembly when being overturned, the four groups of arc-shaped brush plates 405 slide through the four groups of arc-shaped guide plates 407, the four groups of arc-shaped guide plates 407 are gradually overturned to be in a horizontal state, and finally, the four groups of arc-shaped brush plates 405 clean the chips remained on the first arc-shaped groove plates 406 and the four groups of arc-shaped guide plates 407 into the waste bin 4; the assembly delivers the product to the coating assembly for treatment and has a self-cleaning function.

Referring to fig. 6 to 12, the coating assembly includes a first bevel gear 501, a coating roller 502, a grease ball 503, a second fixed shaft 504, a second fixed plate 505, a resin tank 506, a second translational slide 507, a first translational slide 508, a second translational slide 509, a bidirectional screw 510, a flat gear 511, a third fixed shaft 512, a second electric slide 513, a second electric slide 514, a rack 515, a third electric slide 516, a third electric slide 517, a second connecting frame 518, a resin cylinder 519, a conduit 520, a slide sleeve 521, a pressure plate 522, a resin tank 523, a second electric push rod 524, a first lifting slide 525, a second lifting slide 526, a second elastic member 527, a spring 528, a first slide 529, a circular arc-shaped screen plate 530 and a porous bump disk 531; a first bevel gear 501 is fixedly connected with a coating roller 502; the coating roller 502 is rotatably connected with the second support frame 8; the coating roller 502 is in transmission connection with four groups of grease sticking balls 503; four groups of grease-sticking balls 503 are fixedly connected with the second fixed shaft 504 at equal intervals; two sides of the second fixing shaft 504 are fixedly connected with a group of second fixing plates 505 respectively; the two groups of second fixing plates 505 are fixedly connected with the resin box 506; a group of second connecting frames 518 is fixedly connected to both sides of the resin box 506; a second translation slide rail 507 is arranged below the resin box 506; the second translation slide 507 is slidably connected with the first translation slide 508 and the second translation slide 509 respectively; the second translation slide rail 507 is fixedly connected with a third fixed shaft 512; the first translational sliding plate 508 and the second translational sliding plate 509 are respectively screwed with two sides of the bidirectional screw rod 510; two sides of the bidirectional screw rod 510 are rotationally connected with the second translation sliding rail 507 through connecting blocks; the bidirectional screw rod 510 is fixedly connected with the flat gear 511; the third fixed shaft 512 is equidistantly provided with four groups of combinations of a second translation slide rail 507, a first translation slide plate 508, a second translation slide plate 509, a bidirectional screw rod 510 and a flat gear 511; two sides of the third fixed shaft 512 are rotatably connected with a group of second electric sliding blocks 513 through torsion springs 528; the two groups of second electric sliding blocks 513 are respectively connected with the group of second electric sliding rails 514 in a sliding manner; two groups of second electric slide rails 514 are fixedly connected with the underframe 1; a rack 515 is arranged above the flat gear 511; the rack 515 is fixedly connected with two groups of third electric sliding blocks 516; the two groups of third electric sliding blocks 516 are in sliding connection with the third electric sliding rails 517; two sides of the third electric sliding rail 517 are respectively fixedly connected with a group of second connecting frames 518; a resin cylinder 519 is provided above the coating roller 502; the resin cylinder 519 is fixedly connected with the two groups of guide pipes 520; the two groups of conduits 520 are fixedly connected with the resin tank 523; the sliding sleeve 521 is fixedly connected with the resin cylinder 519; a pressure plate 522 is arranged above the sliding sleeve 521; the pressing plate 522 is fixedly connected with the first sliding rod 529; the pressing plate 522 is fixedly connected with a spring 528; the resin tank 523 is fixedly connected with the two groups of second electric push rods 524; the two groups of second electric push rods 524 are fixedly connected with the second support frame 8; a first lifting sliding plate 525 is arranged on the side surface of the resin cylinder 519; the two sides of the first lifting sliding plate 525 are respectively connected with a group of second lifting sliding rails 526 in a sliding manner; two sides of the first lifting sliding plate 525 are respectively fixedly connected with one side of a group of second elastic pieces 527; the other sides of the two groups of second elastic pieces 527 are fixedly connected with a group of second lifting slide rails 526 respectively; the two groups of second lifting slide rails 526 are fixedly connected with the second support frame 8; a combination of a first lifting sliding plate 525, a second lifting sliding rail 526 and a second elastic piece 527 is symmetrically arranged by taking the central axis of the pressing plate 522 as a symmetry axis; the spring 528 is fixedly connected with the sliding sleeve 521; the first sliding rod 529 is in sliding connection with the sliding sleeve 521; the first sliding rod 529 is fixedly connected with the arc-shaped sieve plate 530; the arc-shaped sieve plate 530 is in sliding connection with the resin cylinder 519; the circular arc sieve plate 530 is in sliding connection with the porous convex block disc 531; the porous bump disc 531 is fixedly connected with the resin cylinder 519; below the resin tank 523, there are provided four sets of a combination of a resin cylinder 519, a guide pipe 520, a slide sleeve 521, a pressure plate 522, a spring 528, a first slide bar 529, a circular arc sieve plate 530 and a perforated lug disc 531 at equal distances.

The spherical product rolls through the wedge block on the second translation sliding plate 509 after passing through the first arc-shaped groove plate 406 to be decelerated, then the spherical product is blocked on the coating roller 502 by the first translation sliding plate 508, when the spherical product passes through the second translation sliding plate 509, the second translation sliding plate 509 is pressed downwards, the second translation sliding rail 507 drives the third fixing shaft 512 to slightly rotate in the second electric sliding block 513, after the spherical product passes through the second translation sliding plate 509, the third fixing shaft 512 is reset due to the elastic force of the torsion springs 528 on the two sides, the second translation sliding plate 509 is reset, and the situation that the spherical product cannot pass through due to too much deceleration of the wedge block on the second translation sliding plate 509 to the spherical product is avoided; then two sets of second electric sliding blocks 513 slide upwards in two sets of second electric sliding rails 514 at the same time, so that the third fixed shaft 512 drives the four sets of second translation sliding rails 507 to move upwards, the multiple sets of first translation sliding blocks 508 and second translation sliding blocks 509 move to preset positions, the arc-shaped concave surfaces of the side surfaces of the first translation sliding blocks 508 and second translation sliding blocks 509 correspond to the side surfaces of the products, the flat gear 511 is meshed with the rack 515, then the two sets of third electric sliding blocks 516 slide in the third electric sliding rails 517 at the same time, so that the rack 515 is driven to move, the flat gear 511 drives the bidirectional screw 510 to rotate, so that the first translation sliding blocks 508 and the second translation sliding blocks 509 slide in the second translation sliding rails 507 to approach each other, so that the arc-shaped concave surfaces of the side surfaces of the first translation sliding blocks 508 and the second translation sliding blocks 509 are attached to the side surfaces of the products to limit the two sides of the products, then the two sets of second electric push rods 524 extend to push the resin tank 523 downwards at the same time, then the pressing plate 522 pushes the two sets of first lifting slide plates 525 to slide downwards in the second lifting slide rail 526, the second elastic member 527 in the second lifting slide rail 526 is stretched, then the spring 528 is stretched, the first slide rod 529 slides upwards in the slide sleeve 521, and further the circular arc-shaped screen plate 530 is driven to separate from the porous lug disc 531, at the same time, the bottom surface of the resin cylinder 519 is attached to the surface of the product, the resin in the resin tank 523 enters the resin cylinder 519 through the conduit 520, and further flows to the surface of the product through the circular hole in the bottom surface of the resin cylinder 519, at the same time, the collecting component transmits power to drive the first bevel gear 501 to drive the coating roller 502 to rotate, when the coating roller 502 rotates, at the same time, the coating roller 502 drives the four sets of grease balls 503 below to drive the second fixing shaft 504 to rotate in the two sets of second fixing plates 505, and further the four sets of grease balls 503 stick to the resin in the resin tank 506 and then coat on the coating roller 502, then coating a layer of resin on the surface of the product, interrupting the power of the first bevel gear 501 after the resin coating is finished, retracting and resetting the two groups of second electric push rods 524, reversely sliding and resetting the two groups of third electric sliding blocks 516, reversely sliding and resetting the first translational sliding plate 508 and the second translational sliding plate 509, then downwards sliding the two groups of second electric sliding blocks 513 in the two groups of second electric sliding rails 514 fixedly connected with the second connecting frame 518 to the tail end of the stroke, so that the first translational sliding plate 508 and the second translational sliding plate 509 do not limit the product any more, and then collecting the product by the collecting assembly; the component coats a layer of resin on the surface of a product.

Referring to fig. 13-15, the collecting assembly comprises a main motor 601, a first driving rod 602, a first shaft sleeve 603, a second bevel gear 604, a first fixing frame 605, a third electric push rod 606, a first driving wheel 607, a second driving wheel 608, a second driving rod 609, a second shaft sleeve 610, a third bevel gear 611, a fourth bevel gear 612, a second fixing frame 613, a telescopic rod 614, an electric sliding plate 615, a hook rod 616, an arc-shaped scraper 617, a fourth electric sliding rail 618, a third fixing plate 619, a one-way screw 620, a fifth bevel gear 621, a fifth electric sliding rail 622, a fourth fixing plate 623, a second sliding rod 624, a second arc-shaped groove plate 625, a collecting box 626 and a handle 627; the main motor 601 is fixedly connected with the support table 5; the output shaft of the main motor 601 is rotatably connected with the first transmission rod 602; the first transmission rod 602 is rotatably connected with the underframe 1; the first transmission rod 602 is in transmission connection with the first shaft sleeve 603; the first shaft sleeve 603 is fixedly connected with the second bevel gear 604; the first shaft sleeve 603 is rotatably connected with the first fixing frame 605; the first fixing frame 605 is fixedly connected with the third electric push rod 606; the third electric push rod 606 is fixedly connected with the underframe 1; the first driving wheel 607 is fixedly connected with the first driving rod 602; the first driving wheel 607 is in driving connection with the second driving wheel 608 through a belt; the second driving wheel 608 is fixedly connected with a second transmission rod 609; the second transmission rod 609 is rotatably connected with the underframe 1; the second transmission rod 609 is in transmission connection with the second shaft sleeve 610; two sides of the second shaft sleeve 610 are fixedly connected with a third bevel gear 611 and a fourth bevel gear 612 respectively; the second shaft sleeve 610 is rotatably connected with the second fixing frame 613; the second fixing frame 613 is fixedly connected with one side of the telescopic rod 614; the other side of the telescopic rod 614 is fixedly connected with an electric sliding plate 615; two sides of the electric sliding plate 615 are slidably connected with a fourth electric sliding rail 618 and a fifth electric sliding rail 622 respectively; four groups of hook rods 616 are fixedly connected to the side surface of the electric skateboard 615 at equal intervals; the four groups of hook rods 616 are respectively fixedly connected with a group of arc-shaped scrapers 617; the fourth electric slide rail 618 is fixedly connected with the third fixing plate 619; the third fixing plate 619 is screwed with the one-way screw 620; the one-way screw 620 is rotatably connected with the first support frame 7; the one-way screw 620 is fixedly connected with a fifth bevel gear 621; the fifth electric slide rail 622 is fixedly connected with the fourth fixing plate 623; the fourth fixing plate 623 is connected with the second sliding rod 624 in a sliding manner; the second sliding rod 624 is fixedly connected with the first support 7; a second arc-shaped groove plate 625 is arranged below the arc-shaped scraping plate 617; the second arc-shaped groove plate 625 is fixedly connected with the sliding chute table 6; a collection box 626 is arranged on the side surface of the second arc-shaped groove plate 625; the collection box 626 is connected with the chute table 6 in a sliding manner; the collection box 626 is fixedly connected to a handle 627.

After the first translational sliding plate 508 and the second translational sliding plate 509 no longer limit the product, the electric sliding plate 615 slides in the fourth electric sliding rail 618 and the fifth electric sliding rail 622 toward the second arc-shaped groove plate 625, so that the four groups of curved hook rods 616 drive the four groups of curved scraping plates 617 to move above the side surface of the product, the electric sliding plate 615 slides while making the telescopic rod 614 drive the second fixing frame 613 to move, so that the second shaft sleeve 610 slides on the second transmission rod 609, the fourth bevel gear 612 is engaged with the fifth bevel gear 621, then the main motor 601 is started, the output shaft of the main motor 601 drives the first transmission rod 602 to rotate, the first transmission rod 602 drives the first shaft sleeve 603 and the first transmission wheel 607 to rotate, the first shaft sleeve 603 drives the second bevel gear 604 to rotate, the third electric push rod 606 extends to push the first fixing frame 605, so that the first shaft sleeve 603 slides on the first transmission rod 602, and the second bevel gear 604 is engaged with the first bevel gear 501, and further can transmit power to the operation of the coating assembly, the first driving wheel 607 drives the second driving wheel 608 to drive the second driving rod 609 to rotate, the second driving rod 609 drives the second shaft sleeve 610 to rotate, the second shaft sleeve 610 simultaneously drives the third bevel gear 611 and the fourth bevel gear 612 to rotate, the fourth bevel gear 612 drives the fifth bevel gear 621 to drive the one-way screw 620 to rotate, the one-way screw 620 drives the third fixing plate 619 screwed with the one-way screw to move downwards, so that the fifth electric slide rail 622 drives the fourth fixing plate 623 to slide downwards on the second slide bar 624, and further the four groups of curved hooks 616 drive the four groups of curved scrapers 617 to move downwards, so that the four groups of curved scrapers 617 are located at the side of the product, then the electric slide plate 615 slides backwards, so that the four groups of curved scrapers 617 stir the product to slide through the grooves of the second curved plates 625 to slide into the round holes on the collection box 626, and simultaneously the third bevel gear 611 and the fifth bevel gear 621 are meshed, thereby reversely rotating the one-way screw 620, and thus lifting and resetting the third fixing plate 619, the person can then pull it out of the chute table 6 by pulling the handle 627 on the collection box 626, further conveying the products to other processing positions for processing, after the final batch of products is processed, meshing the fourth bevel gear 612 with the fifth bevel gear 621, thereby causing the four sets of curved squeegees 617 to move downward to be slightly lower than the concave trough curved surfaces of the second curved concave trough plate 625, then the electric sliding plate 615 slides towards the direction far away from the second arc-shaped groove plate 625, so that the four groups of arc-shaped scrapers 617 are extruded with the arc-shaped surface of the groove of the second arc-shaped groove plate 625, further, the arc-shaped parts of the four groups of hook rods 616 are slightly deformed, so that the four groups of arc-shaped scrapers 617 are tightly attached to the arc-shaped surface of the groove of the second arc-shaped groove plate 625, further residual resin in the four groups of arc-shaped scrapers is scraped off, and adverse effects on next use are avoided; this subassembly is taken out and is collected the product after coating resin.

Four sets of arc-shaped grooves are provided on the coating roller 502.

So as to coat the surface of the spherical product with resin.

A wedge block is arranged on top of the second translation sled 509.

So as to slow down the speed of the spherical product and limit the spherical product.

The bottom surface of the resin cylinder 519 is provided with an arc concave surface and a plurality of groups of round holes.

So as to conform to the surface of the spherical product while allowing the resin to flow over the surface.

The curved portion of the hooking lever 616 is provided with a certain elasticity.

So that the curved squeegee 617 presses against the groove of the second curved groove plate 625.

The arcuate flight 617 is contoured to match the groove contour of the second arcuate groove plate 625.

So that the arc-shaped scraping plate 617 scrapes off the resin stuck in the groove.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.