CN116474862B - Screening equipment for production of electric smelting magnesium - Google Patents

Abstract

The invention relates to the technical field of screening equipment, in particular to screening equipment for producing electric smelting magnesium. The invention relates to screening equipment for electric smelting magnesium production, which comprises two boxes, wherein the opposite positions of the two boxes are fixedly connected with a screening shell, the two sides of the top of the screening shell are fixedly connected with two brackets, the opposite positions of the ends of the two brackets are rotationally connected with a crushing shell, the peripheral wall of the crushing shell is provided with a material receiving component, the material receiving component is communicated with the boxes, and a cavity is formed in the crushing shell, so that the screening equipment has the beneficial effects that: this screening equipment is used in electric smelting magnesium production can make the breaker plate strike behind the breakage to electric smelting magnesium, by two right-angle plate elasticity and breaker plate with the neutral gear after lug and slope cushion separation open the breaker plate to both sides to enlarge the interval of two breaker plates, later continue to strike electric smelting magnesium after lug and slope cushion contact again, thereby can make the breaker plate obtain lasting to the crushing work of electric smelting magnesium.

Description

Screening equipment for production of electric smelting magnesium

Technical Field

The invention relates to the technical field of screening equipment, in particular to screening equipment for producing electric smelting magnesium.

Background

The electric smelting magnesia is one of the main raw materials for survival refractory materials, and the grain sizes of the required magnesia raw materials are different due to different application of the magnesia. In order to meet the living requirement, the magnesia is generally crushed by a corresponding crusher at present, and crushed magnesia materials are effectively screened and classified by a corresponding screening device;

when the equipment is used for producing and processing the electric smelting magnesium, the electric smelting magnesium needs to be crushed and screened, so that screening equipment is needed to assist a user in processing the electric smelting magnesium.

The existing screening equipment for producing the fused magnesium is difficult to crush and screen the fused magnesium continuously, so that the using effect of the equipment is poor, and the using function of the equipment is too limited.

Disclosure of Invention

The invention provides screening equipment for producing electric smelting magnesium aiming at the technical problems in the prior art, and aims to solve the problems that the existing screening equipment for producing electric smelting magnesium is difficult to continuously crush and screen the electric smelting magnesium.

The technical scheme for solving the technical problems is as follows: the utility model provides a screening equipment is used in electric smelting magnesium production, including two boxes, the opposite direction position fixedly connected with screening shell of two boxes, the top both sides fixedly connected with two supports of screening shell, the tip opposite direction position rotation of two supports is connected with broken shell, broken shell's periphery wall is provided with receives the material subassembly, connect material subassembly and box intercommunication, the cavity has been seted up in the broken shell, the inner peripheral wall opposite direction of cavity is provided with two motors, the equal fixedly connected with gear of output shaft tip of two motors, the outer peripheral wall suit of gear is connected with the sleeve, telescopic tip fixedly connected with breaker plate, the outer peripheral wall symmetry of breaker plate is provided with a plurality of lugs, the inner peripheral wall symmetry of cavity is provided with a plurality of slope cushion.

The beneficial effects of the invention are as follows:

the invention is improved on the basis of the prior art, the electric smelting magnesium can be beaten by the two crushing plates, so that the electric smelting magnesium can be crushed, and under the condition that the distance between the two crushing plates and the electric smelting magnesium is the same due to the fact that the moving speeds of the two crushing plates are identical, the acting forces on the two sides of the beaten electric smelting magnesium are the same, so that the crushing effect of the equipment on the electric smelting magnesium is more uniform, and the crushing effect of the equipment on the electric smelting magnesium can be indirectly improved, so that the equipment can further process the electric smelting magnesium.

On the basis of the technical scheme, the invention can be improved as follows.

Further, the inner peripheral wall fixedly connected with supporting shoe of cavity, the tip fixedly connected with dead lever of supporting shoe, the both ends fixedly connected with pressure spring of dead lever, the tip fixedly connected with right-angle plate of pressure spring, set up flutedly in the right-angle plate, the pressure spring is located in the recess.

The beneficial effect of adopting above-mentioned further scheme is, can make the breaker plate strike behind the breakage to electric smelting magnesium, by two right-angle plate elasticity and breaker plate with the neutral gear period after lug and slope cushion separation open the breaker plate to both sides to enlarge the interval of two breaker plates, later continue to strike to electric smelting magnesium after lug and slope cushion contact again, thereby can make the breaker plate obtain lasting to electric smelting magnesium's crushing work.

Further, the inner chamber has been seted up in the screening shell, the inner peripheral wall fixedly connected with servo motor of inner chamber, servo motor's output shaft end fixedly connected with transmission shaft, the tip fixedly connected with linking frame of transmission shaft, the periphery wall of transmission shaft is around being equipped with the screw conveyer pipe, screw conveyer pipe's tip and linking frame UNICOM, linking frame's inner peripheral wall fixedly connected with screening frame, screening frame's inner wall fixedly connected with baffle, a plurality of hole sites have been seted up in the screening frame, screening shell's bottom fixedly connected with separation box, separation box's top is provided with the material receiving mouth, material receiving mouth and screening frame looks adaptation.

The beneficial effect of adopting above-mentioned further scheme is, can be after the screw conveyer pipe lasts in carrying electric smelting magnesium to screening frame, carry out screening treatment to it by screening frame to screen it step by a plurality of screening frames, and have the effect of lasting screening.

Drawings

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

FIG. 2 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 3 is a schematic cross-sectional front view of a screen housing of the present invention;

FIG. 4 is a schematic view of the front cross-sectional structure of the crushing shell of the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4 at A;

fig. 6 is a schematic top view of a crushing shell according to the invention.

In the drawings, the list of components represented by the various numbers is as follows:

1. a case; 2. a sieving housing; 201. an inner cavity; 202. a servo motor; 203. a transmission shaft; 204. a connection frame; 205. a screw conveying pipe; 206. a screening frame; 207. a partition plate; 208. a hole site 208; 3. a bracket; 4. crushing the shell; 401. a motor; 402. a gear; 403. a sleeve; 404. a breaker plate; 405. tilting the cushion block; 406. a support block; 407. a fixed rod; 408. a pressure spring; 409. a right angle plate; 5. a receiving assembly; 6. a sorting box; 601. and a receiving port.

Detailed Description

The principles and features of the present invention are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the invention and are not to be construed as limiting the scope of the invention.

The electric smelting magnesia is one of the main raw materials for survival refractory materials, and the grain sizes of the required magnesia raw materials are different due to different application of the magnesia. In order to meet the living needs, the magnesia is generally crushed by a corresponding crusher at present, and crushed magnesia materials are effectively screened and classified by a corresponding screening device, so that the inventor provides screening equipment for producing the fused magnesia to solve the problems.

The present invention provides the following preferred embodiments

As shown in fig. 1-6, a screening device for producing electric smelting magnesium comprises two box bodies 1, wherein a screening shell 2 is fixedly connected to opposite positions of the two box bodies 1, two supports 3 are fixedly connected to two sides of the top of the screening shell 2, a crushing shell 4 is rotatably connected to opposite positions of end parts of the two supports 3, a material receiving component 5 is arranged on the peripheral wall of the crushing shell 4, the material receiving component 5 is communicated with the box bodies 1, a cavity is formed in the crushing shell 4, two motors 401 are oppositely arranged on the inner peripheral wall of the cavity, gears 402 are fixedly connected to the end parts of output shafts of the two motors 401, a sleeve 403 is sleeved on the outer peripheral wall of the gears 402, a crushing plate 404 is fixedly connected to the end parts of the sleeve 403, a plurality of convex blocks are symmetrically arranged on the outer peripheral wall of the crushing plate 404, a plurality of inclined cushion blocks 405 are symmetrically arranged on the inner peripheral wall of the cavity, the two motors 401 are oppositely arranged on the inner peripheral wall of the cavity, then, a gear 402 is respectively arranged at the end parts of the output shafts of the two motors 401, the outer peripheral wall of the gear 402 is sleeved with a sleeve 403, and the inner peripheral wall of the sleeve 403 is meshed with the gear 402, so that the gear 402 can rotate together with the sleeve 403 and the crushing plate 404 at the end parts of the sleeve 403 after being driven by the motors 401, in the process, the sleeve 403 can move based on the gear 402 due to the meshing of the sleeve 403 and the gear 402 in a strip-shaped state, the gear 402 cannot influence the gear, and then under the combined action of a plurality of inclined cushion blocks 405 arranged at the inner peripheral wall of a cavity and a plurality of protruding blocks arranged at the outer peripheral wall of the crushing plate 404, the crushing plate 404 can move based on the gear 402 in the rotating process, and when two groups of crushing plates 404 simultaneously face to each other to deflect, the distance between the two crushing plates 404 can be changed, and the electric smelting magnesium arranged between the two crushing plates 404 is hit, so that the electric smelting magnesium can be crushed, and under the condition that the distance between the two crushing plates and the electric smelting magnesium is changed identically due to the identical moving speed of the two crushing plates 404, the acting forces born by the two hit electric smelting magnesium sides can be identical, so that the crushing effect of the equipment on the electric smelting magnesium is more uniform, and the crushing effect of the equipment on the electric smelting magnesium can be indirectly improved, so that the equipment is convenient for further processing of the electric smelting magnesium.

In this embodiment, as shown in fig. 1, fig. 2, fig. 4 and fig. 5, in order to further improve the continuous crushing effect of the device on the fused magnesium, the inner peripheral wall of the cavity is fixedly connected with a supporting block 406, the end of the supporting block 406 is fixedly connected with a fixing rod 407, two ends of the fixing rod 407 are fixedly connected with a compression spring 408, the end of the compression spring 408 is fixedly connected with a right angle plate 409, a groove is formed in the right angle plate 409, the compression spring 408 is located in the groove, the supporting block 406 is fixed on the inner peripheral wall of the cavity, the fixing rod 407 is arranged at the end of the supporting block 406, two ends of the fixing rod 407 are fixed with the two compression springs 408, and elastic force is applied to the other end of the compression spring 408, namely the right angle plate 409, so that the distance between the two right angle plates 409 is enlarged, and the two right angle plates 404 are interposed between the two crushing plates 404, therefore, after the two right angle plates 409 and the crushing plates 404 are crushed by the elastic force of the two right angle plates and the cushion blocks 405 are separated in the rotating process, the two right angle plates 404 are separated from each other, and then the two impact the two crushing plates 404 can be continuously contacted with the two right angle plates 404, and the two impact the two crushing plates 404 are continuously, and then the electric-expanded, and the two impact plates are continuously and can be continuously in contact with the two sides of the two crushing plates 404.

In this embodiment, as shown in fig. 1, 2 and 3, in order to further promote the continuous sieving effect of the equipment on the electric molten magnesium, an inner cavity 201 is formed in the sieving housing 1, the inner peripheral wall of the inner cavity 201 is fixedly connected with a servo motor 202, the end of an output shaft of the servo motor 202 is fixedly connected with a transmission shaft 203, the end of the transmission shaft 203 is fixedly connected with a connecting frame 204, the outer peripheral wall of the transmission shaft 203 is wound with a spiral conveying pipe 205, the end of the spiral conveying pipe 205 is communicated with the connecting frame 204, the inner peripheral wall of the connecting frame 204 is fixedly connected with a sieving frame 206, the inner wall of the sieving frame 206 is fixedly connected with a baffle 207, a plurality of holes 208 are formed in the sieving frame 206, the bottom of the sieving housing 2 is fixedly connected with a sorting box 6, the top of the sorting box 6 is provided with a material receiving opening 601, the material receiving opening 601 is matched with the sieving frame 206, the inner cavity 201 is formed in the sieving housing 1, the inner peripheral wall of the inner cavity 201 is provided with a servo motor 202, and the end of the output shaft 203 is provided with a transmission shaft 204, and the end of the output shaft 203 is fixedly connected with the connecting frame 204, thereby the end of the transmission shaft 203 can rotate after the servo motor 202 runs, the inner peripheral wall 205 is connected with the connecting frame 204, the inner peripheral wall 205 is connected with the inner peripheral wall 204, the magnesium box 204 is connected with the inner peripheral wall 204, and the magnesium box 204 is rotatably connected with the inner peripheral frame 204, and the inner box 204 is rotatably connected with the inner magnesium box 204, and the inner box 204 is electrically connected with the inner frame 204, and can be rotated, and the inner magnesium box 204 is electrically connected with the inner box 1, the electric smelting magnesium can be continuously screened by the spiral conveying pipe 205 after flowing out of the hole sites 208 which are not formed in the screening frame 206, and the hole sites 208 formed in the next screening frame 206 are larger than the hole sites 208 formed in the previous screening frame 206, so that the screening effect of the equipment on the electric smelting magnesium is improved, and then under the effect that the spiral conveying pipe 205 conveys the electric smelting magnesium, the structure in the screening shell 2 can continuously screen the electric smelting magnesium, and the using effect of the equipment is improved.

The specific working process of the invention is as follows:

(1) The raw material is put into the crushing shell 4 by a user

Firstly, after a user puts the electric energy into a cavity through an opening formed in the crushing shell 4, the user drives the motor 401 to operate by the electric energy so as to drive the crushing plates 404 to rotate, and the distance between the two crushing plates 404 is changed in the rotating process, so that the electric smelting magnesium is beaten;

(2) The crushed fused magnesium is conveyed into the box body 1 by the receiving component 5

Then, after the fused magnesium is crushed in the crushing shell 4, the crushing shell 4 can be manually rotated by a user, so that the hole site 208 formed in the crushing shell 4 is positioned at the bottom, and the crushed fused magnesium can flow into the receiving component 5 through the opening and continuously flow into the box body.

(3) The servo motor 202 drives the screw conveying pipe 205 to rotate

The servo motor 202 drives the screw conveying pipe 205 to rotate, and when the end of the screw conveying pipe 205 is positioned in the box body 1, the electric smelting magnesium is conveyed, so that the electric smelting magnesium can continuously flow into the screening frame 206.

(4) The servo motor 202 drives the connecting frame 204 to rotate

Finally, when the fused magnesium is conveyed into the connecting frame 204, the holes 208 distributed in the sieving frame 206 can enable particles with the volume smaller than that of the holes 208 in the fused magnesium to flow outwards, and the particles can be stored in the sorting box 6 through the material receiving opening 601, so that a user can conveniently carry out the next processing work on the fused magnesium.

To sum up: the invention has the advantages that the structure is improved on the basis of the prior art, the sieving equipment for producing the fused magnesium has better effect, the two motors 401 are oppositely arranged on the inner peripheral wall of the cavity, then the two motors 401 are respectively provided with one gear 402 at the end parts of the output shafts of the two motors 401, the outer peripheral wall of each gear 402 is sleeved with the corresponding sleeve 403, meanwhile, the inner peripheral wall of each sleeve 403 is meshed with the corresponding gear 402, so that the gears 402 can rotate together with the corresponding crushing plates 404 with the sleeve 403 and the end parts of the sleeve 403 after being driven by the motors 401, in the process, the sleeve 403 can move based on the gears 402 in a strip-shaped state due to the meshing of the sleeve 403 and the gears 402, the gears 402 can not influence the same, then the crushing plates 404 can move based on the gears 402 in the rotating process under the combined action of a plurality of inclined cushion blocks 405 arranged at the inner peripheral walls of the cavities, and when the two groups of the crushing plates 404 are oppositely offset, the distance between the two crushing plates can be changed, the two fused plates 404 can be oppositely arranged, the fused magnesium can be further processed and the fused magnesium can be uniformly, and the fused magnesium can be more processed, and the fused magnesium can be more uniformly, and the fused magnesium can be more easily and the fused and the two sides of the fused magnesium can be more easily have the same impact effect.

When the structure is used, the supporting block 406 is fixed on the inner peripheral wall of the cavity, the fixing rod 407 is arranged at the end part of the supporting block 406, the two ends of the fixing rod 407 are fixed with the two pressure springs 408, the pressure springs 408 take the joint of the pressure springs 408 and the fixing rod 407 as an acting point, the elastic force is applied to the other end of the pressure springs 408, namely the right angle plates 409, so that the distance between the two right angle plates 409 is enlarged, and the two right angle plates 409 are arranged between the two crushing plates 404, therefore, after the crushing plates 404 strike and crush fused magnesium, the crushing plates 404 are sprung out to two sides by the elastic force of the two right angle plates 409 and the neutral stage of the crushing plates 404 after the convex blocks and the inclined cushion blocks 405 are separated in the rotating process, so that the distance between the two crushing plates 404 is enlarged, and then the impact on the fused magnesium is continued after the convex blocks are contacted again with the inclined cushion blocks 405, so that the crushing work of the fused magnesium can be continued by the crushing plates 404;

when the structure is used, the inner cavity 201 is formed in the screening shell 1, the servo motor 202 is arranged on the inner peripheral wall of the inner cavity 201, the transmission shaft 203 is arranged at the end part of the output shaft of the servo motor 202, the end part of the transmission shaft 203 is fixed with the connecting frame 204, after the servo motor 202 operates, the connecting frame 204 can rotate along with the connecting frame 204, so that the connecting frame 204 can rotate, two sides of the connecting frame 204 are connected with the spiral conveying pipe 205, the end part of the spiral conveying pipe 205 is positioned in the box body 1 and can rotate along with the rotation of the connecting frame 204, the spiral conveying pipe 205 can convey fused magnesium in the box body 1 into the connecting frame 204, then the fused magnesium is screened by the rotating connecting frame 204 and the screening frame 206 on the inner peripheral wall of the connecting frame 204, after the current screening frame 206 screens the fused magnesium, the fused magnesium can be continuously conveyed into the next screening frame 206 after the holes 208 which are not formed in the screening frame 206 flow out, the next hole site 208 is positioned in the next screening frame 206, and the fused magnesium can be continuously screened by the spiral conveying pipe 206, and then the fused magnesium can be continuously screened by the continuous electric conveying device in the box body 2.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (2)

1. The screening equipment for the production of the electric smelting magnesium is characterized by comprising two box bodies (1), wherein one screening shell (2) is fixedly connected to opposite positions of the two box bodies (1), two supports (3) are fixedly connected to two sides of the top of the screening shell (2), crushing shells (4) are rotatably connected to opposite positions of the end parts of the two supports (3), a material receiving component (5) is arranged on the peripheral wall of each crushing shell (4), and the material receiving component (5) is communicated with the box bodies (1); a cavity is formed in the crushing shell (4), two motors (401) are oppositely arranged on the inner peripheral wall of the cavity, gears (402) are fixedly connected to the end parts of output shafts of the two motors (401), and a sleeve (403) is sleeved on the outer peripheral wall of each gear (402); the end part of the sleeve (403) is fixedly connected with a crushing plate (404), a plurality of convex blocks are symmetrically arranged on the outer peripheral wall of the crushing plate (404), and a plurality of inclined cushion blocks (405) are symmetrically arranged on the inner peripheral wall of the cavity; the inner peripheral wall of the cavity is fixedly connected with a supporting block (406); the end part of the supporting block (406) is fixedly connected with a fixed rod (407), and the two ends of the fixed rod (407) are fixedly connected with a pressure spring (408); the end part of the pressure spring (408) is fixedly connected with a rectangular plate (409), a groove is formed in the rectangular plate (409), and the pressure spring (408) is positioned in the groove; an inner cavity (201) is formed in the screening shell (2), a servo motor (202) is fixedly connected to the inner peripheral wall of the inner cavity (201), a transmission shaft (203) is fixedly connected to the end part of an output shaft of the servo motor (202), a connecting frame (204) is fixedly connected to the end part of the transmission shaft (203), a spiral conveying pipe (205) is wound on the outer peripheral wall of the transmission shaft (203), and the end part of the spiral conveying pipe (205) is communicated with the connecting frame (204); the inner peripheral wall fixedly connected with screening frame (206) of connection frame (204), the inner wall fixedly connected with baffle (207) of screening frame (206), a plurality of hole sites (208) have been seted up in screening frame (206).

2. The screening device for electric smelting magnesium production according to claim 1, wherein the bottom of the screening shell (2) is fixedly connected with a sorting box (6), the top of the sorting box (6) is provided with a material receiving opening (601), and the material receiving opening (601) is matched with the screening frame (206).