CN220091535U - Raw material crushing device for producing magnesia-alumina spinel - Google Patents

Abstract

The utility model relates to the technical field of magnesia-alumina spinel, and discloses a raw material crushing device for producing magnesia-alumina spinel, which comprises a box body, a crushing part and a connecting shaft, wherein the crushing part and the connecting shaft are arranged on the box body, the connecting shaft is rotationally connected to the box body through a bearing.

Description

Raw material crushing device for producing magnesia-alumina spinel

Technical Field

The utility model relates to the technical field of magnesia-alumina spinel, in particular to a raw material crushing device for magnesia-alumina spinel production.

Background

The aluminum magnesium spinel is prepared from magnesia and aluminum oxide as raw materials by synthesizing spinel refractory raw materials artificially, and when the aluminum magnesium spinel raw materials are processed, the raw materials are crushed and crushed by a crushing device to obtain the aluminum magnesium spinel.

The utility model provides an authorized bulletin number CN215783980U raw material crushing device for aluminum magnesium spinel powder production and processing, which comprises a crushing box, the top of crushing box is provided with the feeder hopper, the both sides of crushing box are provided with first guide mechanism and second guide mechanism respectively in the slope, first guide mechanism and second guide mechanism are by first stock guide and buffer plate group, the buffer plate with first stock guide parallel arrangement and be located the top of first stock guide, still be provided with spacing subassembly between buffer plate and the first stock guide through a plurality of first spring coupling between buffer plate and the first stock guide, the both sides in the crushing box still all are fixed mounting pneumatic cylinder, the telescopic end fixedly connected with stripper plate of pneumatic cylinder, the adjacent one side of both sides stripper plate all is provided with crushing tooth, the below of every stripper plate all is provided with a plurality of pin, the below slope of pin is provided with the second stock guide, the top of the second guide plate is fixedly connected with the inner wall of the crushing box, two rotating shafts are arranged below the lower end of the second guide plate, a crushing roller is fixedly connected on the rotating shafts, a driving assembly is arranged on the crushing box, a screen is obliquely arranged below the crushing roller, the top of the screen is movably connected with the inner wall of the crushing box, a partition plate is arranged below the lower end of the screen, the bottom of the partition plate is fixedly connected with the crushing box, the top of the partition plate is connected with the lower end of the screen through a plurality of second springs, a vibrating motor is arranged below the screen, collecting boxes are respectively arranged on two sides of the partition plate, the existing raw material crushing devices provided with crushing rollers are respectively used for crushing raw materials into powder by the crushing rollers when the crushing rollers crush spar raw materials, and the raw materials are easy to adhere to the crushing rollers when the raw materials are crushed by the crushing rollers, thereby easily causing a reduction in the crushing efficiency of the crushing roller against the subsequent raw material.

Disclosure of Invention

The utility model aims to provide a raw material crushing device for producing magnesia-alumina spinel, which solves the problems in the prior art.

The embodiment of the utility model adopts the following technical scheme:

the raw material crushing device for producing the magnesia-alumina spinel comprises a box body, a crushing part and a connecting shaft, wherein the crushing part and the connecting shaft are arranged on the box body, and the connecting shaft is rotationally connected to the box body through a bearing;

the crushing part cleaning mechanism comprises a sliding plate and a cleaning part, and when the sliding plate slides in the box body, the cleaning part can be driven to clean the surface of the crushing part;

the screening mechanism is arranged in the box body and can screen the crushed spar particles after the crushing part is crushed;

the lifting mechanism is arranged on the screening mechanism, so that the height of the cleaning component can be adjusted, and the cleaning area of the crushing component is enlarged.

Preferably, the top of the box body is provided with a pouring hopper, the connecting shaft is provided with a driving source and a gear set, the crushing part is arranged on the outer wall of the connecting shaft, and one side of the box body is hinged with a box door.

Preferably, the connecting shaft is provided with an inner linkage part, one side of the box body is provided with a sliding hole, a sliding plate slides in the sliding hole, one side of the sliding plate is connected with a connecting plate, and the connecting plate is fixed on the inner wall of the box body through a first elastic part.

Preferably, cambered surfaces are arranged on the inner linkage part and the sliding plate.

Preferably, the screening mechanism comprises an outer linkage part arranged on the connecting shaft, a lifting opening is formed in one side of the box body, a connecting arm is arranged in the lifting opening in a sliding mode, a cylinder is fixed on the connecting arm, a connecting frame is fixed on one side of the connecting arm, and a screening part is arranged on the connecting frame.

Preferably, the screening component is fixedly provided with inserting blocks at intervals, and the connecting frame is provided with inserting slots at intervals.

Preferably, the lifting mechanism comprises a connecting block fixed on the connecting frame, the inside of the connecting block is provided with a roller, the sliding plate is connected with a sliding block through a second elastic component, and the sliding block is connected with the cleaning component through a lifting plate.

Preferably, the width of the sliding plate is smaller than the width of the sliding hole, the height of the sliding plate is smaller than the height of the sliding hole, the width of the connecting arm is smaller than the width of the lifting opening, and the height of the connecting arm is smaller than the height of the lifting opening.

The beneficial effects of the utility model are as follows:

this raw materials reducing mechanism is used in magnesium aluminium spinel production, through the inside that the hopper was poured into the box to the spar that needs to be broken, drive crushing part through the actuating source and break the spar, the actuating source can clear up crushing part's surface adhesion's spar crushed aggregates through driving crushing part clearance mechanism this moment to keep crushing part's crushing efficiency.

The raw material crushing device for producing the magnesia-alumina spinel has the advantages that the driving source can screen crushed spar crushed aggregates through the screening mechanism, so that qualified products and unqualified products can be distinguished conveniently.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those skilled in the art from this disclosure that the drawings described below are merely exemplary and that other embodiments may be derived from the drawings provided without undue effort.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of a driving source structure according to the present utility model;

FIG. 3 is a schematic view of a connecting arm structure according to the present utility model;

FIG. 4 is a schematic view of a pulverizing part cleaning mechanism according to the present utility model;

FIG. 5 is a schematic diagram of a screening mechanism according to the present utility model;

fig. 6 is a schematic structural view of the lifting mechanism of the present utility model.

In the figure: the device comprises a box body 10, a pouring hopper 11, a driving source 12, a connecting shaft 13, a crushing part 14, a gear set 15, a box door 16, a crushing part cleaning mechanism 20, an inner linkage part 21, a sliding plate 22, a connecting plate 23, a first elastic part 24, a sliding hole 25, a cleaning part 26, a screening mechanism 30, an outer linkage part 31, a connecting arm 32, a cylinder 33, a connecting frame 34, a lifting opening 35, a screening part 36, an inserting block 37, a slot 38, a lifting mechanism 40, a connecting block 41, a roller 42, a sliding block 43, a lifting plate 44 and a second elastic part 45.

Detailed Description

In order to solve the problem that the crushing efficiency is easily lowered due to the fact that the residual crushed spar is attached back to the device for crushing spar and the crushed spar is attached to the device for crushing spar, the following proposal has been made to solve the problem.

The following describes the embodiments of the present utility model further with reference to the drawings.

Referring to fig. 1 to 6, a raw material pulverizing apparatus for producing magnesium aluminate spinel,

including box 10 and install connecting axle 13 on the box 10, and the connecting axle 13 interval sets up in the inside of box 10, install on the connecting axle 13 and be used for carrying out kibbling crushing part 14 to the spar, be provided with crushing part clearance mechanism 20 on the connecting axle 13, can clear up the crushed aggregates that crushing part 14 surface adheres to, thereby keep crushing part 14 crushing efficiency, the inside of box 10 is provided with screening mechanism 30, be used for sieving kibbling spar crushed aggregates, thereby be convenient for select qualified crushed aggregates, be provided with elevating system 40 on the screening mechanism 30, be used for rising clearance mechanism 20's height, thereby can slide from top to bottom and clear up crushing part 14, the outer wall interval of box 10 is fixed with the protecting crust, and the protecting crust is located crushing part clearance mechanism 20, screening mechanism 30, and elevating system 40's outside, be used for protecting crushing part clearance mechanism 20, screening mechanism 30, and elevating system 40's part.

The top of box 10 is fixed to be linked together and is poured hopper 11, and drive source 12 is installed to one side of box 10, and drive source 12's output is fixed mutually with the one end of connecting axle 13, and gear train 15 is installed to the one end that drive source 12 was kept away from to connecting axle 13, and the opening has been seted up to box 10 one side, and articulates there is chamber door 16 on the open-ended outer wall, and drive source 12's output drives and rotates with connecting axle 13 that connects, and connecting axle 13 passes through gear train 15 and drives and rotate in opposite direction with connecting axle 13 of symmetry to make crushing part 14 on the connecting axle 13 smash the processing to the material.

Referring to fig. 1, 2, 3 and 4, the crushing part cleaning mechanism 20 includes an inner linkage part 21 fixed on the outer wall of the connecting shaft 13, an arc surface is provided on the inner linkage part 21, a sliding hole 25 is provided on the box door 16, a sliding plate 22 slides in the sliding hole 25, one end of the sliding plate 22 located outside the box 10 is provided with a linkage arc surface, a cleaning part 26 slides in the connecting plate 23, the cleaning part 26 is located on one side of the crushing part 14, bristles are provided on one side of the sliding plate 22, the linkage arc surface of the sliding plate 22 corresponds to the arc surface of the inner linkage part 21, the inner linkage part 21 is arc-shaped, when the connecting shaft 13 rotates, the inner linkage part 21 axially moves on the connecting shaft 13, the arc surface of the inner linkage part 21 contacts with the linkage arc surface of the sliding plate 22, and continues to axially rotate along with the inner linkage part 21, the sliding plate 22 is extruded, the sliding plate 22 slides inwards in the sliding hole 25, and the bristles on the cleaning part 26 adhere to the surface of the crushing part 14, so that the crushing efficiency of the crushing part 14 is maintained;

continuing to return to fig. 3 and 4, one end of the sliding plate 22 located inside the box 10 is fixed with a connecting plate 23, one end of the connecting plate 23 far away from the sliding plate 22 is fixed on the inner wall of the box 10 through a first elastic component 24, the first elastic component 24 can drive the sliding plate 22 to recover through the connecting plate 23, when the inner linkage component 21 is separated from the sliding plate 22, the sliding plate 22 is not extruded by the inner linkage component 21, so that the first elastic component 24 drives the sliding plate 22 to recover, and when the sliding plate 22 recovers, the surface of the crushing component 14 is cleaned repeatedly in the transverse direction again.

Referring to fig. 1, fig. 2, fig. 3 and fig. 5, the screening mechanism 30 includes an outer linkage part 31 fixed on the outer wall of the connecting shaft 13, a space is provided between the outer linkage part 31 and the inner linkage part 21, a connecting frame 34 is provided in the box 10, a screening part 36 is provided in the connecting frame 34, a connecting arm 32 is fixed between the screening part 36 and the outer linkage part 31, a cylinder 33 is fixed on one side of the connecting arm 32, a lifting opening 35 is provided on one side of the box 10, the connecting arm 32 slides in the lifting opening 35, the lifting opening 35 is positioned below the sliding hole 25, a screen is fixed on the inner wall of the screening part 36, the outer linkage part 31 moves axially on the connecting shaft 13 along with the rotation of the connecting shaft 13, at this moment, the edge part of the outer linkage part 31 contacts the cylinder 33 of the connecting arm 32, and drives the connecting arm 32 to slide in the lifting opening 35, at this moment, the outer linkage part 31 on the two connecting shafts 13 has different angles, the outer linkage part 31 of the connecting shaft 13 contacts with the corresponding connecting arm 32, and drives the connecting arm 32 to lift the connecting arm 32 on one side of the connecting frame, and the other side of the connecting frame is not contacted with the connecting arm 32, and the corresponding to the connecting arm 32 is further, the connecting arm 32 is driven to slide on the other side of the connecting frame 32, and the connecting frame is contacted with the connecting frame 32 when the connecting frame is not contacted with the connecting frame 32, and the corresponding to the connecting frame 32, and the connecting frame is convenient to the connecting frame 32.

Continuing to return to the illustration of fig. 5, the top interval of screening part 36 is fixed with insert 37, and the bottom interval of link 34 is equipped with slot 38, and slot 38 corresponds with insert 37, and screening part 36 passes through the inside of insert 37 intubate slot 38 to can dismantle screening part 36 to handle secondary processing to the crushed aggregates on the filter screen, after screening part 36 screens qualified crushed aggregates, can take out screening part 36 from link 34, be convenient for handle the partial dissieved crushed aggregates in the screening part 36.

Referring to fig. 1, 2, 3 and 6, the lifting mechanism 40 includes a connecting block 41 fixed at the top of the connecting frame 34 at intervals, a roller 42 is disposed in the connecting block 41, a circular shaft is rotatably connected between the inner wall of the connecting block 41 and two sides of the roller 42, a lifting plate 44 is fixed at the bottom of the cleaning member 26, a sliding block 43 is fixed at the bottom of the lifting plate 44, a second elastic member 45 is fixed between the sliding block 43 and the sliding plate 22 at intervals, when the connecting frame 34 is lifted up and down in a reciprocating manner, the roller 42 of the connecting block 41 abuts against the sliding block 43, when the sliding plate 22 moves forward and backward, the sliding block 43 can rotate the roller 42 in the connecting block 41 at the moment, the cleaning member 26 is not affected by the sliding plate 22 to clean the surface of the crushing member 14, and when the sliding block 43 presses the second elastic member 45, the lifting plate 44 drives the cleaning member 26 to lift up, so that the crushing member 14 can be cleaned up and down longitudinally, thereby enlarging the cleaning area of the crushing member 14.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (8)

1. A raw material crushing device for producing magnesia-alumina spinel, which is characterized by comprising;

the crushing device comprises a box body (10), a crushing part (14) and a connecting shaft (13), wherein the crushing part (14) and the connecting shaft (13) are arranged on the box body (10), and the connecting shaft (13) is rotationally connected to the box body (10) through a bearing;

the crushing part cleaning mechanism (20) comprises a sliding plate (22) and a cleaning part (26), and when the sliding plate (22) slides in the box body (10), the cleaning part (26) can be driven to clean the surface of the crushing part (14);

the screening mechanism (30) is arranged in the box body (10) and can screen the crushed spar particles crushed by the crushing component (14);

the lifting mechanism (40) is arranged on the screening mechanism (30) and can adjust the height of the cleaning component (26) to enlarge the cleaning area of the crushing component (14).

2. The raw material crushing device for producing magnesium aluminate spinel according to claim 1, wherein a pouring hopper (11) is installed at the top of the box body (10), a driving source (12) and a gear set (15) are installed on the connecting shaft (13), a crushing part (14) is installed on the outer wall of the connecting shaft (13), and a box door (16) is hinged to one side of the box body (10).

3. The raw material crushing device for producing magnesium aluminate spinel according to claim 1, wherein the connecting shaft (13) is provided with an inner linkage component (21), one side of the box body (10) is provided with a sliding hole (25), the sliding hole (25) is internally provided with a sliding plate (22) in a sliding manner, one side of the sliding plate (22) is connected with a connecting plate (23), and the connecting plate (23) is fixed on the inner wall of the box body (10) through a first elastic component (24).

4. A raw material crushing device for producing magnesium aluminate spinel according to claim 3, wherein cambered surfaces are arranged on the inner linkage part (21) and the sliding plate (22).

5. The raw material crushing device for producing magnesium aluminate spinel according to claim 1, wherein the screening mechanism (30) comprises an outer linkage component (31) mounted on a connecting shaft (13), a lifting opening (35) is formed in one side of the box body (10), a connecting arm (32) is arranged in the lifting opening (35) in a sliding mode, a cylinder (33) is fixed on the connecting arm (32), a connecting frame (34) is fixed on one side of the connecting arm (32), and a screening component (36) is mounted on the connecting frame (34).

6. The raw material crushing device for producing magnesium aluminate spinel according to claim 5, wherein the screening component (36) is fixedly provided with inserting blocks (37) at intervals, and the connecting frame (34) is provided with inserting slots (38) at intervals.

7. The raw material pulverizing device for producing magnesium aluminate spinel according to claim 1, wherein the lifting mechanism (40) comprises a connecting block (41) fixed on the connecting frame (34), a roller (42) is installed in the connecting block (41), the sliding plate (22) is connected with a sliding block (43) through a second elastic component (45), and the sliding block (43) is connected with the cleaning component (26) through a lifting plate (44).

8. The raw material pulverizing apparatus for producing a magnesium aluminate spinel according to any one of claims 1 to 7, wherein the width of the slide plate (22) is smaller than the width of the slide hole (25), the height of the slide plate (22) is smaller than the height of the slide hole (25), the width of the connecting arm (32) is smaller than the width of the lifting opening (35), and the height of the connecting arm (32) is smaller than the height of the lifting opening (35).