CN212576859U - Semi-automatic totally-enclosed granulating processing device - Google Patents

Abstract

The utility model belongs to the technical field of the carborundum pelletization, especially, semi-automatic totally closed pelletization processingequipment, to current screening mode simple structure, the screening effect is poor, and the dust on the carborundum particle is easy to be kicked up during the screening, is not convenient for clear away, at first influences the carborundum particle outer tube, and secondly the problem of polluted environment or machine, the following scheme is put forward now, and it includes granule screening case, the top of granule screening case is provided with the charge door, and the bottom of granule screening case is provided with the discharge gate, is provided with the striker plate on the discharge gate, and perpendicular fixed mounting has four vertical poles in the granule screening case, and common slidable mounting has three sieve on four vertical poles, and the aperture of three sieve is steadilyd decrease in proper order, and one side. The utility model discloses can multistage vibrations screening, improve the screening effect, can avoid polluted environment or machine with the dust absorption on the silicon carbide granule, improve silicon carbide granule pleasing to the eye.

Description

Semi-automatic totally-enclosed granulating processing device

Technical Field

The utility model relates to a carborundum pelletization technical field especially relates to a semi-automatic totally closed pelletization processingequipment.

Background

With the development of society, new energy and new materials gradually enter the visual field of people, wherein silicon carbide has a plurality of other purposes besides being used as an abrasive material due to stable chemical property, high heat conductivity coefficient, small thermal expansion coefficient and good wear resistance, for example, silicon carbide powder is coated on the inner wall of a water turbine impeller or a cylinder body by a special process, so that the wear resistance of the silicon carbide powder can be improved, and the service life of the silicon carbide powder is prolonged by 1-2 times; the high-grade refractory material has the advantages of thermal shock resistance, small volume, light weight, high strength and good energy-saving effect. Low grade silicon carbide (containing about 85% SiC) is an excellent deoxidizer with which the steel-making speed can be accelerated, the chemical composition can be easily controlled, and the quality of steel can be improved, and the production process of silicon carbide comprises: batching, mixing, charging, smelting, cooling, discharging, crushing, screening and grinding. Wherein the granulation of carborundum includes crushing and screening, and crushing mode: primarily crushing the silicon carbide crystal by a jaw crusher, further crushing large silicon carbide particles by a hammer crusher (2 bag type dust collectors are installed for dust removal, the collected dust is checked and warehoused for sale, the treated dust is discharged in an unorganized mode), and then screening.

Present screening mode simple structure, screening effect is poor, and the dust on the carborundum granule is raisd easily during the screening, is not convenient for clear away, at first influences carborundum granule outer tube, secondly polluted environment or machine.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving current screening mode simple structure, screening effect is poor, and the dust on the carborundum granule during screening is raised easily, is not convenient for clear away, at first influences the carborundum granule outer tube, secondly the shortcoming of polluted environment or machine, and the semi-automatic totally closed pelletization processingequipment who proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a semi-automatic totally-enclosed granulating processing device comprises a particle screening box, wherein a charging opening is arranged at the top of the particle screening box, a discharging opening is arranged at the bottom of the particle screening box, a baffle plate is arranged on the discharging opening, four vertical rods are vertically and fixedly arranged in the particle screening box, three screen plates are jointly and slidably arranged on the four vertical rods, the three screen plates are all obliquely arranged, the aperture of each screen plate is sequentially reduced, three air suction cylinders are communicated with one side of the particle screening box, air suction fans are rotatably arranged in the three air suction cylinders, the bottoms of the three air suction cylinders are all in threaded connection with a collecting bag, a motor is fixedly connected with one side of the particle screening box, a vertical shaft is fixedly arranged on an output shaft of the motor, the three air suction fans are all matched with the vertical shaft, three pushing structures are arranged in the particle screening box and are all connected with the vertical shaft, and three, the three material guide pipes are communicated with the same storage box, three material receiving structures are arranged in the storage box, and the three material guide pipes are respectively matched with the three material receiving structures.

Preferably, the inner wall of one side of each of the three air suction cylinders is rotatably connected with a worm, the three worms are fixedly installed with the three air suction fans respectively, the outer side of the vertical shaft is fixedly sleeved with three worm wheels, and the three worm wheels are meshed with the three worms respectively.

Preferably, the dust screen is fixedly connected to the inner portion of the air suction cylinder and matched with the corresponding collecting bag, the dust blocking screen is fixedly connected to the opening of the air suction cylinder, and the aperture of the dust blocking screen is larger than that of the dust screen.

Preferably, the pushing structure comprises a transverse shaft and a cam, the transverse shaft is connected with the particle screening box in a transverse rotating mode, the cam is fixedly installed with the transverse shaft, and the cam is abutted to the corresponding sieve plate.

Preferably, three first bevel gears are fixedly mounted on the outer side of the vertical shaft, two second bevel gears are fixedly mounted at one ends of the three transverse shafts, the third first bevel gears are respectively meshed with the three second bevel gears, the bottom of the air suction cylinder is fixedly connected with a protection box, and the first bevel gears and the second bevel gears are located in the corresponding protection boxes.

Preferably, the dovetail groove has all been seted up to the both sides of sieve, and the both sides in dovetail groove are the opening setting, and slidable mounting has trapezoidal strip in the dovetail groove, and one side fixed mounting of trapezoidal strip has two slip strips, slip strip and two perpendicular pole sliding connection that correspond, and the outside fixed mounting of perpendicular pole has a plurality of welding blocks, and the bottom fixed mounting of welding block and the slip strip that corresponds has same tension spring.

Preferably, receive the material structure and include backup pad, receiver and arm-tie, three hole of accomodating has been seted up to one side of receiver, receiver and the hole swing joint of accomodating, backup pad fixed mounting is in the receiver, receiver and backup pad swing joint, arm-tie and receiver fixed connection are provided with magnet between arm-tie and the receiver.

Preferably, one side fixed mounting of sieve has the mounting bar, and three mounting hole has been seted up to one side of granule screening case, mounting bar and mounting hole swing joint, mounting bar and granule screening case fixed connection, one side fixed connection controller of granule screening case.

Compared with the prior art, the utility model has the advantages of:

(1) according to the scheme, the three sieve plates are arranged for step-by-step screening, and the three material guide pipes are guided into the three containing boxes, so that screening and collection are facilitated;

(2) according to the scheme, dust in the particle screening box can be sucked into the air suction cylinder through the three air suction fans, the dust blocking net can block silicon carbide particles, the silicon carbide particles are prevented from entering the air suction cylinder, the dust can be blocked through the dust preventing net, the dust falls into the corresponding collecting bag, pollution to the environment and a machine is avoided, and the collecting bag can be detached and cleaned due to threaded connection with the air suction cylinder;

(3) according to the scheme, the vertical shaft is respectively provided with three transverse shafts to rotate through three first bevel gears and three second bevel gears, the three transverse shafts respectively drive three cams to rotate, the three cams respectively extrude three sieve plates to move, the three sieve plates simultaneously reciprocate in a tension box of a tension spring to form vibration, the screening effect of the two sieve plates is improved, meanwhile, dust on silicon carbide particles can be shaken off, and the attractiveness of the silicon carbide particles is improved;

(4) the installation strip is dismantled to this scheme, can pull out the clearance with the sieve, and when installing again, because the dovetail groove has been seted up to the both sides of sieve, and the both sides in dovetail groove are the opening for two dovetail grooves can be conveniently be connected with two trapezoidal strips that correspond.

The utility model discloses can multistage vibrations screening, improve the screening effect, can avoid polluted environment or machine with the dust absorption on the silicon carbide granule, improve silicon carbide granule pleasing to the eye.

Drawings

Fig. 1 is a schematic structural view of a semi-automatic totally-enclosed granulating device provided by the utility model;

fig. 2 is a schematic view of a three-dimensional structure of a particle screening box and a receiving box of the semi-automatic totally-enclosed granulating and processing device provided by the utility model;

fig. 3 is a schematic structural view of a part a of the semi-automatic totally-enclosed granulating device provided by the utility model;

fig. 4 is a schematic structural diagram of part B of the semi-automatic totally-enclosed granulating device provided by the utility model.

In the figure: 1 particle screening box, 2 feed inlets, 3 discharge outlets, 4 sieve plates, 5 containing boxes, 6 guide pipes, 7 supporting plates, 8 containing boxes, 9 vertical rods, 10 motors, 11 dust blocking nets, 12 air suction cylinders, 13 collecting bags, 14 vertical shafts, 15 air suction fans, 16 protection boxes, 17 transverse shafts, 18 worm gears, 19 dust prevention nets, 20 first bevel gears, 21 second bevel gears, 22 cams, 23 sliding strips, 24 trapezoidal strips, 25 trapezoidal grooves, 26 welding blocks, 27 tension springs, 28 mounting strips, 29 tension plates and 30 controllers.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, but not all embodiments.

Example one

Referring to fig. 1-4, a semi-automatic totally-enclosed granulating device comprises a particle screening box 1, a feeding port 2 is arranged at the top of the particle screening box 1, a discharging port 3 is arranged at the bottom of the particle screening box 1, a material baffle is arranged on the discharging port 3, four vertical rods 9 are vertically and fixedly arranged in the particle screening box 1, three screen plates 4 are jointly and slidably arranged on the four vertical rods 9, the three screen plates 4 are all obliquely arranged, the aperture of the three screen plates 4 is sequentially decreased, three air suction cylinders 12 are communicated with one side of the particle screening box 1, air suction fans 15 are rotatably arranged in the three air suction cylinders 12, the bottoms of the three air suction cylinders 12 are all in threaded connection with a collecting bag 13, a motor 10 is fixedly connected with one side of the particle screening box 1, a vertical shaft 14 is fixedly arranged on an output shaft of the motor 10, the three air suction fans 15 are all matched with the vertical shaft 14, the three pushing structures are connected with a vertical shaft 14, the other side of the particle screening box 1 is communicated with three material guide pipes 6, the three material guide pipes 6 are communicated with a same storage box 5, three material receiving structures are arranged in the storage box 5, and the three material guide pipes 6 are respectively matched with the three material receiving structures.

In this embodiment, the inner walls of one sides of the three air suction cylinders 12 are rotatably connected with worms, the three worms are respectively and fixedly installed with the three air suction fans 15, the outer side of the vertical shaft 14 is fixedly sleeved with three worm wheels 18, the three worm wheels 18 are respectively meshed with the three worms, and the vertical shaft 14 drives the three air suction fans 15 to rotate through the three worm wheels 18 and the three worms.

In this embodiment, equal fixedly connected with dust screen 19 in the section of thick bamboo 12 of breathing in, dust screen 19 and the collection bag 13 looks adaptation that corresponds, the open position fixedly connected with that the section of thick bamboo 12 of breathing in keeps off dirt net 11, and the aperture that keeps off dirt net 11 is greater than the aperture of dust screen 19, can block the silicon carbide granule through keeping off dirt net 11, prevents that the silicon carbide granule from getting into the section of thick bamboo 12 of breathing in, can block the dust through dust screen 19, and the dust falls into in the collection bag 13 that corresponds.

In this embodiment, push the structure and include transverse shaft 17 and cam 22, transverse shaft 17 and granule screening case 1 horizontal rotation are connected, cam 22 and transverse shaft 17 fixed mounting, and cam 22 is inconsistent with corresponding sieve 4, and cam 22 rotates and can extrude sieve 4 and remove.

In this embodiment, three first bevel gears 20 are fixedly mounted on the outer side of the vertical shaft 14, two second bevel gears 21 are fixedly mounted at one ends of the three transverse shafts 17, the third first bevel gears 20 are respectively engaged with the three second bevel gears 21, the bottom of the air suction tube 12 is fixedly connected with the protection box 16, the first bevel gears 20 and the second bevel gears 21 are located in the corresponding protection boxes 16, and the protection boxes 16 protect the first bevel gears 20 and the second bevel gears 21.

In this embodiment, trapezoidal groove 25 has all been seted up to the both sides of sieve 4, the both sides of trapezoidal groove 25 are the opening setting, slidable mounting has trapezoidal strip 24 in trapezoidal groove 25, one side fixed mounting of trapezoidal strip 24 has two slide bars 23, slide bar 23 and two vertical rod 9 sliding connection who corresponds, vertical rod 9's outside fixed mounting has a plurality of welding blocks 26, welding blocks 26 and the bottom fixed mounting of the slide bar 23 that corresponds have same tension spring 27, tension spring 27 provides decurrent pulling force for sieve 4 through slide bar 3.

In this embodiment, receive the material structure and include backup pad 7, receiver 8 and arm-tie 29, three hole of accomodating has been seted up to one side of receiver 25, receiver 8 with accomodate hole swing joint, backup pad 7 fixed mounting is in receiver 25, receiver 8 and backup pad 7 swing joint, arm-tie 29 and receiver 8 fixed connection, be provided with magnet between arm-tie 29 and the receiver 25, stability when can increase receiver 8 and use.

In this embodiment, one side fixed mounting of sieve 4 has mounting bar 28, and three mounting hole has been seted up to one side of granule screening case 1, mounting bar 28 and mounting hole swing joint, mounting bar 28 and granule screening case 1 fixed connection, one side fixed connection controller 30 of granule screening case 1 sets up the mounting bar 28 and can takes out the clearance with sieve 4.

Example two

Referring to fig. 1-4, a semi-automatic totally-enclosed granulating device comprises a particle screening box 1, a feeding port 2 is arranged at the top of the particle screening box 1, a discharging port 3 is arranged at the bottom of the particle screening box 1, a material baffle is arranged on the discharging port 3, four vertical rods 9 are vertically and fixedly welded in the particle screening box 1, three screen plates 4 are jointly and slidably mounted on the four vertical rods 9, the three screen plates 4 are all obliquely arranged, the aperture of the three screen plates 4 is sequentially decreased progressively, three air suction cylinders 12 are communicated with one side of the particle screening box 1, air suction fans 15 are rotatably mounted in the three air suction cylinders 12, the bottoms of the three air suction cylinders 12 are all in threaded connection with a collecting bag 13, one side of the particle screening box 1 is fixedly connected with a motor 10 through screws, a vertical shaft 14 is fixedly welded on an output shaft of the motor 10, and the three air suction fans 15, be provided with three pushing structure in the granule screening case 1, three pushing structure all is connected with vertical axis 14, and the opposite side intercommunication of granule screening case 1 has three passage 6, and the intercommunication has same containing box 5 on the three passage 6, is provided with three receipts material structure in the containing box 5, and three passage 6 receives material structure looks adaptation with three respectively.

In this embodiment, the inner wall of one side of each of the three air suction cylinders 12 is rotatably connected with a worm, the three worms are fixedly mounted with the three air suction fans 15 by welding, three worm wheels 18 are fixedly sleeved on the outer side of the vertical shaft 14, the three worm wheels 18 are respectively engaged with the three worms, and the vertical shaft 14 drives the three air suction fans 15 to rotate by the three worm wheels 18 and the three worms.

In this embodiment, all pass through screw fixedly connected with dust screen 19 in the section of thick bamboo 12 of breathing in, dust screen 19 and the collection bag 13 looks adaptation that corresponds, the open position of a section of thick bamboo 12 of breathing in passes through screw fixedly connected with and keeps off dirt net 11, the aperture that keeps off dirt net 11 is greater than the aperture of dust screen 19, can block the silicon carbide granule through keeping off dirt net 11, prevent that the silicon carbide granule from getting into a section of thick bamboo 12 of breathing in, can block the dust through dust screen 19, the dust falls into in the collection bag 13 that corresponds.

In this embodiment, push the structure and include transverse shaft 17 and cam 22, transverse shaft 17 and granule screening case 1 pass through the bearing and transversely rotate and be connected, cam 22 and transverse shaft 17 pass through welded fastening installation, and cam 22 offsets with corresponding sieve 4, and cam 22 rotates and can push sieve 4 and remove.

In this embodiment, three first bevel gears 20 are fixedly mounted on the outer side of the vertical shaft 14 by welding, two second bevel gears 21 are fixedly mounted at one ends of the three transverse shafts 17 by welding, the third first bevel gears 20 are respectively engaged with the three second bevel gears 21, the bottom of the air suction cylinder 12 is fixedly connected with a protection box 16 by screws, the first bevel gears 20 and the second bevel gears 21 are located in the corresponding protection boxes 16, and the protection boxes 16 protect the first bevel gears 20 and the second bevel gears 21.

In this embodiment, the two sides of the sieve plate 4 are both provided with the trapezoidal grooves 25, the two sides of the trapezoidal grooves 25 are both provided with openings, the trapezoidal grooves 25 are internally and slidably provided with the trapezoidal strips 24, one side of each trapezoidal strip 24 is fixedly provided with two sliding strips 23 by welding, the sliding strips 23 are slidably connected with two corresponding vertical rods 9, the outer sides of the vertical rods 9 are fixedly provided with a plurality of welding blocks 26 by welding, the welding blocks 26 and the bottoms of the corresponding sliding strips 23 are fixedly provided with the same tension spring 27 by welding, the tension spring 27 provides downward tension for the sieve plate 4 through the sliding strips 3, the three transverse shafts 17 respectively drive the three cams 22 to rotate, the three cams 22 respectively extrude the three sieve plates 4 to move, the three sieve plates 4 do reciprocating motion at the same time to form vibration in the tension box of the tension spring 27, because the trapezoidal grooves 25 are formed in the two sides of the sieve plate 4, and the two sides, so that the two trapezoidal grooves 25 can be easily connected with the corresponding two trapezoidal strips 24.

In this embodiment, receive the material structure and include backup pad 7, receiver 8 and arm-tie 29, three hole of accomodating has been seted up to one side of receiver 25, receiver 8 with accomodate hole swing joint, backup pad 7 passes through welded fastening and installs in receiver 25, receiver 8 and backup pad 7 swing joint, backup pad 7 supports receiver 8, arm-tie 29 passes through screw fixed connection with receiver 8, be provided with magnet between arm-tie 29 and the receiver 25, stability when can increase receiver 8 and use.

In this embodiment, there is mounting bar 28 in one side of sieve 4 through welded fastening, and three mounting hole has been seted up to one side of granule screening case 1, mounting bar 28 and mounting hole swing joint, and mounting bar 28 passes through screw fixed connection with granule screening case 1, and screw fixed connection controller 30 is passed through to one side of granule screening case 1, sets up mounting bar 28 and can takes out the clearance with sieve 4.

In the embodiment, when in use, the motor 10 is powered on and the controller 30 is connected, silicon carbide particles are added through the charging port 2, the motor 10 is started, the silicon carbide particles enter the particle screening box 1 to be screened step by step through the three sieve plates 4, the silicon carbide particles are guided into the three storage boxes 8 through the three material guide pipes 6, the motor 10 drives the vertical shaft 14 to rotate, the vertical shaft 14 drives the three air suction fans 15 to rotate through the three worm gears 18 and the three worms respectively, the three air suction fans 15 can suck dust in the particle screening box 1 into the air suction cylinder 12, the silicon carbide particles can be blocked through the dust blocking net 11, the silicon carbide particles are prevented from entering the air suction cylinder 12, the dust can be blocked through the dustproof net 19, the dust falls into the corresponding collecting bag 13, the pollution to the environment and the machine is avoided, because the collecting bag 13 is in threaded connection with the air suction cylinder 12, the collecting bag 13 can be, the vertical shaft 14 is respectively provided with three transverse shafts 17 to rotate through three first bevel gears 20 and three second bevel gears 21, the three transverse shafts 17 respectively drive three cams 22 to rotate, the three cams 22 respectively extrude three sieve plates 4 to move, the three sieve plates 4 simultaneously reciprocate in a tension box of a tension spring 27 to form vibration, so that the screening effect of the two sieve plates 4 is improved, dust on silicon carbide particles can be shaken off, the attractiveness of the silicon carbide particles is improved, after screening is completed, the motor 10 is stopped, the three pull plates 29 are respectively pulled to pull out three storage boxes 8 to collect silicon carbide particles with different sizes, the material blocking plate is pulled to open the material outlet 3, the silicon carbide particles or dust on the inner wall of the bottom of the particle screening box 1 can be collected, the sieve plates 4 can be pulled out and cleaned by disassembling the installation strips 28, when the sieve plates are re-installed, because the two sides of the sieve plates 4 are provided with trapezoidal grooves, and both sides of the trapezoidal groove 25 are open, so that the two trapezoidal grooves 25 can be conveniently connected with the corresponding two trapezoidal strips 24, and the mounting strip 28 can be fixed.

The above descriptions are only preferred embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to, replaced or changed.

Claims (8)

1. A semi-automatic totally-enclosed granulation processing device comprises a particle screening box (1), wherein a feeding port (2) is arranged at the top of the particle screening box (1), a discharge port (3) is arranged at the bottom of the particle screening box (1), and a material baffle is arranged on the discharge port (3), and is characterized in that four vertical rods (9) are vertically and fixedly arranged in the particle screening box (1), three sieve plates (4) are jointly and slidably arranged on the four vertical rods (9), the aperture of the three sieve plates (4) is sequentially reduced progressively, three air suction cylinders (12) are communicated with one side of the particle screening box (1), air suction fans (15) are rotatably arranged in the three air suction cylinders (12), collecting bags (13) are in threaded connection with the bottoms of the three air suction cylinders (12), a motor (10) is fixedly connected to one side of the particle screening box (1), and a vertical shaft (14) is fixedly arranged on an output shaft of, three fan (15) of breathing in all with vertical axis (14) looks adaptation, be provided with three pushing structure in the granule screening case (1), three pushing structure all is connected with vertical axis (14), and the opposite side intercommunication of granule screening case (1) has three passage (6), and the intercommunication has same containing box (5) on three passage (6), is provided with three receipts material structure in containing box (5), and three passage (6) receive material structure looks adaptation with three respectively.

2. A semi-automatic full-closed granulating and processing device as claimed in claim 1, wherein the inner wall of one side of each of the three air suction cylinders (12) is rotatably connected with a worm, the three worms are respectively and fixedly mounted with the three air suction fans (15), the outer side of the vertical shaft (14) is fixedly sleeved with three worm gears (18), and the three worm gears (18) are respectively meshed with the three worms.

3. A semi-automatic fully-closed granulating device as claimed in claim 1, wherein the air suction cylinders (12) are all fixedly connected with dust screens (19), the dust screens (19) are matched with the corresponding collecting bags (13), the opening positions of the air suction cylinders (12) are fixedly connected with dust blocking nets (11), and the aperture of each dust blocking net (11) is larger than that of each dust screen (19).

4. A semi-automatic fully-closed granulating and processing device as claimed in claim 1, wherein the pushing structure comprises a transverse shaft (17) and a cam (22), the transverse shaft (17) is transversely and rotatably connected with the particle screening box (1), the cam (22) is fixedly mounted with the transverse shaft (17), and the cam (22) is abutted against the corresponding sieve plate (4).

5. The semi-automatic totally-enclosed granulating processing apparatus according to claim 1, wherein three first bevel gears (20) are fixedly mounted on the outer side of the vertical shaft (14), two second bevel gears (21) are fixedly mounted on one ends of the three transverse shafts (17), the third first bevel gears (20) are respectively engaged with the three second bevel gears (21), the bottom of the air suction cylinder (12) is fixedly connected with a protection box (16), and the first bevel gears (20) and the second bevel gears (21) are located in the corresponding protection boxes (16).

6. A semi-automatic totally closed pelletization processingequipment according to claim 1, characterized in that trapezoidal groove (25) have all been seted up to the both sides of sieve (4), the both sides of trapezoidal groove (25) are the opening setting, slidable mounting has trapezoidal strip (24) in trapezoidal groove (25), one side fixed mounting of trapezoidal strip (24) has two sliding strip (23), sliding strip (23) and two corresponding vertical rod (9) sliding connection, the outside fixed mounting of vertical rod (9) has a plurality of welding blocks (26), welding block (26) and the bottom fixed mounting of the sliding strip (23) that corresponds have same tension spring (27).

7. The semi-automatic totally closed pelletization processingequipment of claim 1, characterized in that, receive the material structure and include backup pad (7), receiver (8) and arm-tie (29), three receiving holes have been seted up to one side of receiver (5), receiver (8) and receiving hole swing joint, backup pad (7) fixed mounting is in receiver (5), receiver (8) and backup pad (7) swing joint, arm-tie (29) and receiver (8) fixed connection, be provided with magnet between arm-tie (29) and receiver (5).

8. The semi-automatic totally closed pelletization processingequipment of claim 1, characterized in that, one side fixed mounting of sieve (4) has mounting bar (28), and three mounting holes have been seted up to one side of granule screening case (1), mounting bar (28) and mounting hole swing joint, mounting bar (28) and granule screening case (1) fixed connection, one side fixed connection controller (30) of granule screening case (1).

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