CN220657880U - Silicon carbide particle unloading edulcoration equipment - Google Patents

Abstract

The utility model discloses silicon carbide particle blanking and impurity removing equipment, which belongs to the technical field of slag removing devices, wherein a rectangular spray head assembly, a rectangular body sleeve I and a rectangular body sleeve II are sequentially arranged on the side wall of a kettle body from top to bottom, the rectangular spray head assembly is opposite to the rectangular body sleeve I, one end of a fin type electric heater is communicated with a fan through a pipeline I, the other end of the fin type electric heater is communicated with the rectangular spray head assembly through a pipeline II, an electric valve is arranged on a blanking pipe, and a rectangular magnet block assembly I and a rectangular magnet block assembly II are arranged in the rectangular body sleeve I. Solves the technical problem that the prior equipment does not have the function of removing scrap iron and water vapor impurities in silicon carbide particles, and is mainly used in the aspect of silicon carbide production.

Description

Silicon carbide particle unloading edulcoration equipment

Technical Field

The utility model relates to the technical field of slag removal devices, in particular to silicon carbide particle blanking and impurity removal equipment.

Background

The silicon carbide particle blanking and impurity removing equipment is an important material widely applied to the industrial fields of abrasive materials, refractory materials and the like;

application number: 2019207135281 the utility model discloses a silicon carbide particle of impurity removing device for silicon carbide, this utility model utilizes the air current motion through setting up the draught fan, realize silicon carbide and impurity and dust quick separation, but clean silicon carbide is obtained swiftly, through setting up the ton package into bilayer structure, can install the ton package on the support frame fast, can tightly wrap up the ton package with superstructure feed opening, can avoid ton package internal matter to leak outward, be convenient for collect silicon carbide, impurity and dust, after having got rid of dust and impurity, the granule at this moment is not absolutely clean, often still can have impurity-iron fillings bigger than the silicon carbide granule, in the silicon carbide granule production process, because breaker equipment needs to smash the silicon carbide granule to required mesh number, the tool bit contacts with the material and produces iron fillings metallic impurity, this kind of quality risk such as the product that can strike sparks appear at customer's encapsulated product, make the product unqualified, silicon carbide raw materials still often exist the impurity of steam when smashing, still adhere to silicon carbide raw materials granule, these impurities can influence quality and performance of product, I propose impurity removing equipment for this.

Disclosure of Invention

The utility model provides a silicon carbide particle blanking impurity removing device, which aims to solve the technical problem that the prior device mentioned in the background art does not have the function of removing scrap iron and water vapor impurities in silicon carbide particles,

the technical scheme adopted by the utility model is as follows: the utility model provides a silicon carbide granule unloading edulcoration equipment, includes the cauldron body, inlet pipe, unloading pipe, plc switch board, prevents running material dust exhaust subassembly, fan and fin formula electric heater, be provided with inlet pipe, unloading pipe, plc switch board on the cauldron body, prevent running material dust exhaust subassembly, fan and fin formula electric heater, plc switch board control fan, fin formula electric heater and motorised valve work, its characterized in that: the utility model discloses a kettle, including kettle body, rectangle shower nozzle subassembly, rectangle body cover I and rectangle body cover II materials are pp polystyrene material from last to setting gradually down on the kettle body lateral wall, rectangle shower nozzle subassembly is relative with rectangle body cover I, fin formula electric heater one end is through pipeline I and fan intercommunication, the other end is through pipeline II and rectangle shower nozzle subassembly intercommunication, set up the motorised valve on the unloading pipe, set up rectangle magnet piece subassembly I in the rectangle body cover I, set up rectangle magnet piece subassembly II in the rectangle body cover II, rectangle magnet piece subassembly I and rectangle magnet piece subassembly II structure are the same, the fan, fin formula electric heater and motorised valve wiring end and plc switch board wiring end.

Preferably, the anti-material-leakage dust discharging assembly comprises a bent pipe and inclined plates, wherein two rows of inclined plates are arranged in the bent pipe to prevent silicon carbide particles from escaping.

Preferably, the rectangular nozzle assembly comprises a rectangular nozzle and a triangular prism body, the rectangular nozzle is provided with the triangular prism body, and silicon carbide particles can quickly slide along two sides of the triangular prism body.

Preferably, the rectangular magnet block assembly I comprises a vertical plate and a bar magnet, wherein the vertical plate is arranged on the side face of the bar magnet, and the bar magnet is conveniently taken out.

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

through setting up fan, fin formula electric heater, prevent material running dust discharging subassembly, cuboid cover I, cuboid cover II, rectangle magnet piece subassembly I and rectangle magnet piece subassembly II, the fan blows the heat that fin formula electric heater produced to the carborundum granule through the rectangle mouth of pipe so that the aquatic product attached to the carborundum granule produces the vaporization, vapor is discharged in the material running dust discharging subassembly from preventing, the return bend setting has certain height, carborundum granule has some granule of weight escape to be stopped by the swash plate, the staff regularly uses iron tool to strike the return bend pipe wall, the carborundum granule that adheres to on the swash plate falls back in the cauldron body, reach earlier and purify the steam impurity that the carborundum granule contains, compare with prior art, the steam that has got rid of attached on the carborundum granule also can prevent the escape of carborundum granule simultaneously.

The iron fillings that carborundum granule falls wherein on cuboid cover I earlier are adsorbed by the magnetic separation by rectangular magnet piece subassembly I for the first time, fall on cuboid cover II afterwards and adsorb by rectangular magnet piece subassembly II second magnetic separation remaining iron fillings, can follow cuboid cover I and cuboid cover II discharge with the iron fillings granule that the magnetic separation comes down through the slope setting fast, compare with prior art, adopt this technique can be with carborundum granule in the iron fillings granule completely separate out and this process does not consume energy completely.

Drawings

FIG. 1 is an internal block diagram of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a partial part block diagram I of the present utility model;

fig. 4 is a partial block diagram of the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-4: the utility model provides a technical scheme that: the utility model provides a silicon carbide granule unloading edulcoration equipment, includes the cauldron body 1, inlet pipe 2, unloading pipe 3, plc switch board 4, prevents running material dust exhaust subassembly 5, fan 6 and fin formula electric heater 7, be provided with inlet pipe 2, unloading pipe 3, plc switch board 4, prevent running material dust exhaust subassembly 5, fan 6 and fin formula electric heater 7 on the cauldron body 1, its characterized in that: the side wall of the kettle body 1 is sequentially provided with a rectangular spray head assembly 8, a rectangular body sleeve I9 and a rectangular body sleeve II 10 from top to bottom, the rectangular spray head assembly 8 is opposite to the rectangular body sleeve I9, one end of the fin type electric heater 7 is communicated with the fan 6 through a pipeline I11-1, the other end of the fin type electric heater is communicated with the rectangular spray head assembly 8 through a pipeline II 11-2, an electric valve 12 is arranged on the blanking pipe 3, a rectangular magnet block assembly I13 is arranged in the rectangular body sleeve I9, a rectangular magnet block assembly II 14 is arranged in the rectangular body sleeve II 10, the rectangular magnet block assembly I13 and the rectangular magnet block assembly II 14 are identical in structure, and the wiring ends of the fan 6, the fin type electric heater 7 and the electric valve 12 are connected with the wiring ends of the plc control cabinet 4.

The anti-material-leakage dust discharging assembly 5 comprises a bent pipe 15 and inclined plates 16, and two rows of inclined plates 16 are arranged in the bent pipe 15.

The rectangular spray head assembly 8 comprises a rectangular pipe orifice 17 and a triangular prism body 18, and the triangular prism body 18 is arranged on the rectangular pipe orifice 17.

The rectangular magnet block assembly I13 comprises a vertical plate 19 and a bar magnet 20, and the vertical plate 19 is arranged on the side face of the bar magnet 20.

The deslagging working principle of the utility model is as follows:

firstly, a feeding pipe is sleeved on a feeding pipe 2 of a kettle body 1, an external discharging pipe is connected on a discharging pipe 3, an operator operates a plc control cabinet 4 to control a fan 6 and a fin type electric heater 7 to work, fallen silicon carbide particles firstly fall on a rectangular magnet block component I13, iron filings in the fallen silicon carbide particles are adsorbed by the rectangular magnet block component I9, the fan 6 blows heat generated by the fin type electric heater 7 to the silicon carbide particles through a rectangular pipe orifice 17 to enable water attached to the silicon carbide particles to be vaporized, water vapor is discharged from a material leakage preventing dust discharging component 5, a bent pipe 15 is provided with a certain height, because some particles with weight escaping of the silicon carbide particles are blocked by a sloping plate 16, the operator periodically uses an iron-made tool to strike the pipe wall of the bent pipe 15, the silicon carbide particles attached to the sloping plate 16 fall back into the kettle body 1, firstly water vapor impurities contained in the silicon carbide particles are purified, the silicon carbide particles firstly fall on the rectangular magnet block component I9, then the iron filings in the silicon carbide particles are adsorbed by the rectangular magnet block component I13 through magnetic separation for the first time, the rest iron filings on the body cover II 10 are adsorbed by the rectangular magnet block component II 14 through the magnetic separation for the second time, the iron filings are adsorbed by the rectangular magnet block component II 14, the silicon carbide particles are completely fall into the silicon carbide particles by the electric valve 12, the electric magnetic separation valve is stopped after the operation of the operator stops, the operation of the electric magnetic separation valve is finished, the electric magnetic separation valve is stopped, and the electric control valve is operated to stop the operation of the electric control valve is used for the operation of the silicon carbide particles, and the electric heater is finished, after the electric control valve is finished, and the work is finished, and the electric control valve is finished.

Example 2

Referring to fig. 1-4: the utility model provides a technical scheme that: the utility model provides a silicon carbide granule unloading edulcoration equipment, includes the cauldron body 1, inlet pipe 2, unloading pipe 3, plc switch board 4, prevents running material dust exhaust subassembly 5, fan 6 and fin formula electric heater 7, be provided with inlet pipe 2, unloading pipe 3, plc switch board 4, prevent running material dust exhaust subassembly 5, fan 6 and fin formula electric heater 7 on the cauldron body 1, its characterized in that: the side wall of the kettle body 1 is sequentially provided with a rectangular spray head assembly 8, a rectangular body sleeve I9 and a rectangular body sleeve II 10 from top to bottom, the rectangular spray head assembly 8 is opposite to the rectangular body sleeve I9, one end of the fin type electric heater 7 is communicated with the fan 6 through a pipeline I11-1, the other end of the fin type electric heater is communicated with the rectangular spray head assembly 8 through a pipeline II 11-2, an electric valve 12 is arranged on the blanking pipe 3, a rectangular magnet block assembly I13 is arranged in the rectangular body sleeve I9, a rectangular magnet block assembly II 14 is arranged in the rectangular body sleeve II 10, the rectangular magnet block assembly I13 and the rectangular magnet block assembly II 14 are identical in structure, and the wiring ends of the fan 6, the fin type electric heater 7 and the electric valve 12 are connected with the wiring ends of the plc control cabinet 4.

The anti-material-leakage dust discharging assembly 5 comprises a bent pipe 15 and inclined plates 16, and two rows of inclined plates 16 are arranged in the bent pipe 15.

The rectangular spray head assembly 8 comprises a rectangular pipe orifice 17 and a triangular prism body 18, and the triangular prism body 18 is arranged on the rectangular pipe orifice 17.

The rectangular magnet block assembly I13 comprises a vertical plate 19 and a bar magnet 20, and the vertical plate 19 is arranged on the side face of the bar magnet 20.

The slag discharging working principle of the utility model is as follows:

every 48 hours need clear up the iron fillings granule that adheres to on rectangular body cover I9 and rectangular body cover II 10, the staff pulls out rectangular magnet piece subassembly I13 and rectangular magnet piece subassembly II 14, then place the waste bin under unloading pipe 3, iron fillings granule receives gravity influence and falls into cauldron body 1 from rectangular body cover I9 and rectangular body cover II 10, operating personnel operation plc switch board 4 control motorised valve 12 opens, begin the sediment work, the iron fillings sediment falls into the waste bin, close motorised valve 12 after the end, stopper rectangular magnet piece subassembly I13 and rectangular magnet piece subassembly II 14 back, continue the work of slagging-off next time.

The utility model has simple operation and convenient use, and is suitable for comprehensive popularization and application. Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a silicon carbide granule unloading edulcoration equipment, includes the cauldron body (1), inlet pipe (2), unloading pipe (3), plc switch board (4), prevents running material dust exhaust subassembly (5), fan (6) and fin electric heater (7), be provided with inlet pipe (2), unloading pipe (3), plc switch board (4), prevent running material dust exhaust subassembly (5), fan (6) and fin electric heater (7) on the cauldron body (1), its characterized in that: rectangular spray head components (8), rectangular body sleeves I (9) and rectangular body sleeves II (10) are sequentially arranged on the side wall of the kettle body (1) from top to bottom, the rectangular spray head components (8) are opposite to the rectangular body sleeves I (9), one end of each fin type electric heater (7) is communicated with a fan (6) through a pipeline I (11-1), the other end of each fin type electric heater is communicated with the rectangular spray head components (8) through a pipeline II (11-2), an electric valve (12) is arranged on a blanking pipe (3), rectangular magnet block components I (13) are arranged in the rectangular body sleeves I (9), rectangular magnet block components II (14) are arranged in the rectangular body sleeves II (10), the rectangular magnet block components I (13) and the rectangular magnet block components II (14) are identical in structure, and the fan (6), fin type electric heaters (7) and electric valve (12) are connected with a plc control cabinet (4).

2. The silicon carbide particle blanking and impurity removing device as set forth in claim 1, wherein: the anti-material-leakage dust discharging assembly (5) comprises an elbow pipe (15) and inclined plates (16), wherein two rows of inclined plates (16) are arranged in the elbow pipe (15).

3. The silicon carbide particle blanking and impurity removing device as set forth in claim 1, wherein: the rectangular spray head assembly (8) comprises a rectangular pipe orifice (17) and a triangular prism body (18), and the triangular prism body (18) is arranged on the rectangular pipe orifice (17).

4. The silicon carbide particle blanking and impurity removing device as set forth in claim 1, wherein: the rectangular magnet block assembly I (13) comprises a vertical plate (19) and a strip magnet (20), and the vertical plate (19) is arranged on the side face of the strip magnet (20).