CN215695676U - Mineral processing automation equipment with high screening efficiency - Google Patents

Abstract

The utility model provides mineral separation automation equipment with high screening efficiency, which relates to the technical field of mineral separation automation equipment and comprises a tank body, wherein an elastic net I, an elastic net II and an elastic plate which are distributed in an upper, middle and lower manner are fixed in the tank body; three cross rods are fixed on the left side and the right side of the rotating rod; the utility model has the beneficial effects that: can select three kinds of variation in size ores, need not artifical manual screening, embody the automation of this equipment, be favorable to the ore to carry out the quick screening, during the ore gets into the discharging pipe with higher speed simultaneously to make this equipment screening efficiency high, can avoid elastic ball, elastic net one, elastic net two and elastic plate to receive the damage because of the impact.

Description

Mineral processing automation equipment with high screening efficiency

Technical Field

The utility model relates to the technical field of mineral processing automation equipment, in particular to mineral processing automation equipment with high screening efficiency.

Background

After the ore is mined, the ore needs to be crushed, the size of the crushed ore is different, and the ore needs to be screened, so that the ore is processed in the later period.

Among the prior art, mineral processing automation equipment can collide the screen cloth among the screening ore process, leads to the screen cloth to damage easily for screening ore cost increases, and screens ore speed slowly, makes equipment work efficiency low, thereby the problem that the aforesaid appears is solved to the urgent need for a mineral processing automation equipment that screening efficiency is high.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned technical problem that exists among the prior art, provide a mineral processing automation equipment that screening efficiency is high, can select three kinds of ore of different sizes, need not artifical manual screening, embodied the automation of this equipment, be favorable to the ore to carry out quick screening, during the ore gets into the discharging pipe with higher speed simultaneously to make this equipment screening efficiency high, can avoid elastic ball, elastic net one, elastic net two and elastic plate to receive the damage because of the impact.

The purpose and the effect of the utility model are achieved by the following specific technical means:

an ore dressing automation device with high screening efficiency comprises a tank body;

the inner part of the tank body is fixedly provided with an elastic net I, an elastic net II and an elastic plate which are distributed up, middle and down, the center of the bottom of the tank body is fixedly provided with a motor, the upper end of the motor is fixedly provided with a rotating rod, and the upper end of the rotating rod sequentially penetrates through the bottom of the tank body, the elastic plate, the elastic net I and the elastic net II and extends to the upper part of the inner part of the tank body;

the bull stick left and right sides all is fixed with three horizontal poles, six the horizontal pole is located elasticity net one, elasticity net two and elastic plate below respectively, the notch has all been opened to the horizontal pole outer end, the inside equal level of notch is fixed with the spring, the spring end all is fixed with the activity stick, the notch all is extended to the activity stick outer end, just the activity stick outer end all is fixed with the elastic ball, six the elastic ball is tangent with elasticity net one, elasticity net two and elastic plate below respectively.

Further preferred embodiments: the upper parts of the left side and the right side of the rotating rod are horizontally fixed with main distributing rollers, and the front side and the rear side of each main distributing roller are fixed with a plurality of side distributing rollers which are uniformly distributed.

Further preferred embodiments: the jar body top is fixed with rather than communicating inlet pipe, the inlet pipe upper end cover has the lid.

Further preferred embodiments: the three discharging pipes are arranged outside the tank body, one discharging pipe is fixed in the middle of the left side of the tank body and communicated with the tank body, and the other two tank bodies are respectively fixed above the right side and below the right side of the tank body.

Further preferred embodiments: the right end of the discharge pipe on the left side is located above the left side of the elastic net II, the left end of the discharge pipe on the upper right side is located above the right side of the elastic net I, and the left end of the discharge pipe on the lower right side is located above the right side of the elastic plate.

Further preferred embodiments: elastic net one and elastic plate all incline downwards from left to right, elastic net two inclines downwards from right to left, the mesh diameter of elastic net one is greater than the mesh diameter of elastic net two.

Further preferred embodiments: and a charging box is arranged below each discharging pipe, and the upper end of each charging box is an open end.

Compared with the prior art, the utility model has the beneficial effects that:

according to the ore-dressing automatic equipment with high screening efficiency, three kinds of ores with different sizes can be screened out through the use of the elastic net I, the elastic net II and the elastic plate;

the ore screened by the first elastic net can slide to the right of the first elastic net along the first elastic net and enter the discharging pipe at the upper right, the ore screened by the second elastic net can slide to the left of the second elastic net and then flow into the discharging pipe at the left, the ore falling onto the elastic plate can move to the right of the elastic plate along the elastic plate and gradually enter the discharging pipe at the lower right, the ore in the three discharging pipes can respectively enter the three charging boxes to collect the ore, manual screening is not needed, and the automation of the equipment is reflected;

when the six elastic balls rotate, the six elastic balls respectively collide with the upper part and the lower part of the elastic net I, the elastic net II and the elastic plate, and the elastic net I, the elastic net II and the elastic plate can shake when subjected to impact force, so that ores on the elastic net I, the elastic net II and the elastic plate are all influenced by the impact force, rapid screening of the ores is facilitated, and meanwhile, the ores enter a discharging pipe in an accelerated mode, and therefore the screening efficiency of the equipment is high;

because the elastic ball, the first elastic net, the second elastic net and the elastic plate are all elastic, the elastic ball, the first elastic net, the second elastic net and the elastic plate can be elastically deformed when being impacted and then can restore to the original shape, the elastic ball, the first elastic net, the second elastic net and the elastic plate can be prevented from being damaged due to the impact force, the impact force can be buffered under the action of the elastic force of the spring, and the movable rod and the elastic ball can be protected.

Drawings

FIG. 1 is a schematic view of the overall front cross-sectional structure of the present invention;

FIG. 2 is a schematic perspective view of the main distribution roll and the side distribution rolls of the present invention;

FIG. 3 is a schematic view of a portion of the structure of FIG. 1 according to the present invention.

The labels in the figure are: the automatic feeding device comprises a tank body 1, a feeding pipe 2, a cover 3, an elastic net I4, an elastic net II 5, an elastic plate 6, a motor 7, a rotating rod 8, a main distributing roller 9, a side distributing roller 10, a cross rod 11, a notch 12, a spring 13, a movable rod 14, an elastic ball 15, a discharging pipe 16 and a charging box 17.

Detailed Description

Referring to FIGS. 1-3, embodiments of the present invention are further illustrated;

an ore dressing automation device with high screening efficiency comprises a tank body 1;

an elastic net I4, an elastic net II 5 and an elastic plate 6 which are distributed up, in and down are fixed in the tank body 1, a motor 7 is fixed at the center of the bottom of the tank body 1, a rotating rod 8 is fixed at the upper end of the motor 7, and the upper end of the rotating rod 8 penetrates through the bottom of the tank body 1, the elastic plate 6, the elastic net I4 and the elastic net II 5 in sequence and extends to the upper part of the inside of the tank body 1;

a feeding pipe 2 communicated with the tank body 1 is fixed at the top of the tank body 1, and a cover 3 is covered at the upper end of the feeding pipe 2;

a main distributing roller 9 is horizontally fixed above the left side and the right side of the rotating rod 8, and a plurality of evenly distributed side distributing rollers 10 are fixed on the front side and the rear side of the main distributing roller 9;

the diameter of the meshes of the first elastic net 4 is larger than that of the meshes of the second elastic net 5;

when the workers need to screen ores, the cover 3 is firstly opened, then the motor 7 is powered on, the motor 7 can drive the rotating rod 8 to rotate, the rotating rod 8 can drive the main distributing roller 9 and the side distributing rollers 10 to rotate together, the ores to be screened are poured into the feeding pipe 2 at the moment, the ores can be guided into the tank body 1 through the feeding pipe 2, the upper end of the rotating rod 8 is positioned above the inner part of the tank body 1, the main distributing rollers 9 are positioned above the left side and the right side of the rotating rod 8, so the rotating main distributing rollers 9 and the side distributing rollers 10 can collide with the ores entering the upper part of the inner part of the tank body 1, the ores are dispersed and then fall onto the elastic net I4, the ores smaller than the mesh diameter of the elastic net I4 can pass through the elastic net I4 and fall below the elastic net I4, the ores larger than the mesh diameter of the elastic net I4 can continuously stay on the elastic net I4, and the ores screened by the elastic net I4 can fall onto the elastic net II 5, because the mesh diameter of the first elastic net 4 is larger than that of the second elastic net 5, the second elastic net 5 can carry out secondary screening on ores, the ores smaller than the mesh diameter of the second elastic net 5 can fall onto the elastic plate 6, and the ores larger than the mesh diameter of the second elastic net 5 are continuously left on the second elastic net 5, so that three ores with different sizes can be screened;

the first elastic net 4 and the elastic plate 6 are both inclined downwards from left to right, and the second elastic net 5 is inclined downwards from right to left;

three discharge pipes 16 are arranged outside the tank body 1, wherein one discharge pipe 16 is fixed in the middle of the left side of the tank body 1 and communicated with the tank body, and the other two tank bodies 1 are respectively fixed above the right side of the tank body 1 and below the right side of the tank body 1;

the right end of the left discharge pipe 16 is positioned above the left side of the elastic net II 5, the left end of the right upper discharge pipe 16 is positioned above the right side of the elastic net I4, and the left end of the right lower discharge pipe 16 is positioned above the right side of the elastic plate 6;

a charging box 17 is arranged below each discharging pipe 16, and the upper end of each charging box 17 is an open end;

because the elastic net I4 and the elastic plate 6 are both inclined downwards from left to right, the elastic net II 5 is inclined downwards from right to left, the right end of the left discharge pipe 16 is positioned above the left side of the elastic net II 5, the left end of the right upper discharge pipe 16 is positioned above the right side of the elastic net I4, and the left end of the right lower discharge pipe 16 is positioned on the right side of the elastic plate 6, ores screened by the elastic net I4 slide to the right of the elastic net I4 along the elastic net I4 and enter the upper right discharge pipe 16, ores screened by the elastic net II 5 slide to the left side of the elastic net II 5 and then flow into the left discharge pipe 16, ores falling onto the elastic plate 6 move to the right side of the elastic plate 6 along the elastic plate 6 and gradually enter the right lower right discharge pipe 16, ores in the three discharge pipes 16 respectively enter the three charging boxes 17 to collect the ores, manual screening is not needed, automation of the device is reflected, ores flowing out through the left discharging pipe 16 and the right discharging pipe 16 at the upper part contain a small amount of small ores which are not screened, and workers can screen ores in the charging boxes 17 corresponding to the lower parts of the two discharging pipes 16 for multiple times, so that three ores with different sizes can be screened;

three cross rods 11 are fixed on the left side and the right side of the rotating rod 8, six cross rods 11 are respectively positioned above and below the elastic net I4, the elastic net II 5 and the elastic plate 6, notches 12 are formed in the outer ends of the cross rods 11, springs 13 are horizontally fixed inside the notches 12, movable rods 14 are fixed at the tail ends of the springs 13, notches 12 extend out of the outer ends of the movable rods 14, elastic balls 15 are fixed at the outer ends of the movable rods 14, and the six elastic balls 15 are respectively tangent to the upper and lower parts of the elastic net I4, the elastic net II 5 and the elastic plate 6;

when the rotating rod 8 rotates, the transverse rods 11 on the left side and the right side of the rotating rod can be driven to rotate, the transverse rods 11 can drive the movable rods 14 and the elastic balls 15 to rotate together, and the six elastic balls 15 are respectively tangent to the upper part and the lower part of the elastic net I4, the elastic net II 5 and the elastic plate 6, so that the six elastic balls 15 can respectively collide with the upper part and the lower part of the elastic net I4, the elastic net II 5 and the elastic plate 6 when rotating, and the elastic net I4, the elastic net II 5 and the elastic plate 6 can shake when receiving impact force, so that ores on the elastic net I4, the elastic net II 5 and the elastic plate 6 can be influenced by the impact force, the ore can be rapidly screened, and meanwhile, the ores can be accelerated to enter the discharge pipe 16, and the screening efficiency of the equipment is high;

because the elastic ball 15, the first elastic net 4, the second elastic net 5 and the elastic plate 6 are all elastic, the elastic ball 15, the first elastic net 4, the second elastic net 5 and the elastic plate 6 can be elastically deformed when being impacted and then can restore to the original shape, the elastic ball 15, the first elastic net 4, the second elastic net 5 and the elastic plate 6 can be prevented from being damaged due to the impact force, the movable rod 14 can be pushed after the elastic ball 15 is impacted, the movable rod 14 can compress the spring 13, the impact force can be buffered under the elastic force of the spring 13, and therefore the movable rod 14 and the elastic ball 15 can be protected.

Claims (7)

1. The utility model provides a mineral processing automation equipment that screening efficiency is high, includes jar body (1), its characterized in that:

the tank body (1) is internally fixed with a first elastic net (4), a second elastic net (5) and an elastic plate (6) which are distributed up, middle and down, a motor (7) is fixed at the center of the bottom of the tank body (1), a rotating rod (8) is fixed at the upper end of the motor (7), and the upper end of the rotating rod (8) sequentially penetrates through the bottom of the tank body (1), the elastic plate (6), the first elastic net (4) and the second elastic net (5) and extends to the upper part inside the tank body (1);

the utility model discloses a swing arm, including bull stick (8), bull stick (8) left and right sides all are fixed with three horizontal poles (11), six horizontal poles (11) are located elasticity net (4), elasticity net two (5) and elastic plate (6) below from top to bottom respectively horizontal pole (11), notch (12) have all been opened to horizontal pole (11) outer end, the inside equal level of notch (12) is fixed with spring (13), spring (13) end all is fixed with movable stick (14), notch (12) all extend in movable stick (14) outer end, just movable stick (14) outer end all is fixed with elastic ball (15), six elastic ball (15) are tangent with elasticity net (4), elasticity net two (5) and elastic plate (6) below from top to bottom respectively.

2. The efficient ore dressing automation equipment of screening of claim 1, characterized in that: a main distributing roller (9) is horizontally fixed above the left side and the right side of the rotating rod (8), and a plurality of evenly distributed side distributing rollers (10) are fixed on the front side and the rear side of the main distributing roller (9).

3. The efficient ore dressing automation equipment of screening of claim 1, characterized in that: jar body (1) top is fixed with rather than communicating inlet pipe (2), inlet pipe (2) upper end cover has lid (3).

4. The efficient ore dressing automation equipment of screening of claim 1, characterized in that: the utility model discloses a convenient storage tank, including jar body (1), jar body (1) outside is equipped with three discharging pipe (16), and one of them discharging pipe (16) are fixed in jar body (1) left side middle part and communicate with each other with it, two in addition jar body (1) is fixed in jar body (1) right side top and right side below respectively.

5. The efficient ore dressing automation equipment of screening of claim 4, characterized in that: the discharging pipe (16) right end on the left side is located elastic net two (5) left side top, the upper right discharging pipe (16) left end is located elastic net one (4) right side top, the lower right discharging pipe (16) left end is located elastic plate (6) right side top.

6. The efficient ore dressing automation equipment of screening of claim 1, characterized in that: elastic net one (4) and elastic plate (6) all incline downwards from left to right, elastic net two (5) incline downwards from right to left, the mesh diameter of elastic net one (4) is greater than the mesh diameter of elastic net two (5).

7. The efficient ore dressing automation equipment of screening of claim 5, characterized in that: a charging box (17) is arranged below each discharging pipe (16), and the upper end of each charging box (17) is an open end.

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