CN218283161U - Waste material compression device - Google Patents

Abstract

The utility model discloses a waste material compressor arrangement relates to waste material processing technology field. The utility model comprises a mounting frame and a water tank arranged in the mounting frame; the rolling mechanism and the opening of the water tank are positioned on the same vertical surface, and working power is obtained through the power part; and the stirring mechanism is arranged in the water tank and obtains working power through the power part. The utility model discloses a can wash out the heavy metal powder in the disintegrating slag under rabbling mechanism and transport mechanism's mating reaction to convey the outside of whole equipment with the disintegrating slag, thereby reduced the remaining of heavy metal powder in the disintegrating slag, with reduced the pollution that causes follow-up processing step, in addition, can concentrate the pollutant in the inside through the basin, with the leakage that causes around reduction pollutants equipment and equipment, so also reduced the pollution that causes around whole equipment and equipment.

Description

Waste material compressor arrangement

Technical Field

The utility model relates to a waste material treatment facility technical field, concretely relates to waste material compressor arrangement.

Background

When handling old and useless lithium cell, generally all be through earlier pressing it into the disintegrating slag through compression mechanism, carry out centralized processing again, but the inside some heavy metal powder that has of lithium cell, current compression mechanism is when rolling the lithium cell, can't separate some powder of its waste residue the inside, thereby lead to the lithium cell by crushing after, the inside heavy metal powder that still has of disintegrating slag, if directly retrieve, can lead to the fact certain pollution to subsequent step to inevitable, and this kind of current compression mechanism is when compressing, the inside heavy metal powder of waste residue can a large amount of fall inside the machine, thereby fall on the ground easily, cause certain pollution around and to the machine.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: for solving the problem in the above-mentioned background art, the utility model provides a waste material compressor arrangement.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme:

a waste material compressing apparatus comprising:

the water tank is arranged in the mounting frame;

the rolling mechanism and the opening of the water tank are positioned on the same vertical surface, and working power is obtained through the power part;

the stirring mechanism is arranged in the water tank and obtains working power through the power part;

and the conveying mechanism is arranged in the water tank and obtains working power through the power part.

Further, the stirring mechanism comprises a rotating rod which is rotatably installed in the water tank, a turning plate is arranged on the rotating rod, and the rotating rod obtains rotating power through a power part.

Furthermore, a plurality of water permeable openings are distributed on the turning plate.

Furthermore, the quantity of dwang is a plurality of, and is vertical dislocation and arranges.

Further, vertically in the basin to separating and being equipped with two symmetrical baffles to with the basin falls into first cell body and is located two second cell bodies of first cell body both sides, transport mechanism sets up in the first cell body, be formed with the compartment between baffle bottom and the basin bottom, just the basin bottom is constructed there is the inclined plane, and its both ends extend to first cell body and second cell body respectively.

Furthermore, the conveying mechanism comprises a screen plate horizontally arranged in the first tank body at intervals, a leakage opening is formed in the screen plate, the conveying mechanism further comprises a screw rod mechanism connected to the leakage opening in an abutting mode, and the discharge end of the screw rod mechanism extends to the outside of the water tank.

Further, rolling mechanism passes through first band pulley subassembly and one of them the dwang transmission is connected, a plurality of through second band pulley subassembly transmission connection between the dwang, one of them the dwang passes through third band pulley subassembly and screw mechanism transmission is connected, rolling mechanism directly acquires operating power by power part.

Further, the transmission ratio of the first pulley assembly is not lower than 200%.

Furthermore, the height of the screen plate gradually decreases from the peripheral side of the screen plate to the leakage opening.

The beneficial effects of the utility model are as follows: the utility model discloses compare with current compressing mechanism, through increase rabbling mechanism on compressing mechanism, thereby make can wash out the heavy metal powder in the disintegrating slag under the infiltration effect of water, and can salvage out the disintegrating slag after wasing from the aquatic under transport mechanism's effect, thereby reduced the remaining of heavy metal powder in the disintegrating slag, in order to reduce the pollution that causes follow-up processing step, in addition, can concentrate the pollutant in the inside through the basin, in order to reduce the leakage that the pollutant caused around equipment and equipment, so the pollution that causes around whole equipment and equipment has also been reduced.

Drawings

FIG. 1 is a perspective view of the present invention;

fig. 2 is another perspective view of the present invention;

FIG. 3 is a view showing the effect of the installation frame of the present invention in vertical cutting;

fig. 4 is a side view of the present invention in partial structure of fig. 3;

FIG. 5 is a perspective view of the partial structure of the present invention and an effect view of the partial structure when vertically cut;

reference numerals: 1. installing a frame; 2. a water tank; 3. a rolling mechanism; 4. a power component; 5. a stirring mechanism; 6. a transport mechanism; 7. rotating the rod; 8. turning a plate; 9. a water permeable port; 10. a partition plate; 11. a first tank body; 12. a second tank body; 13. an inclined surface; 14. a screen plate; 15. a leakage opening; 16. a screw mechanism; 17. a first pulley assembly; 18. a second pulley assembly; 19. a third pulley assembly.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the attached drawings in the embodiments of the present invention will be combined below to clearly and completely describe the technical solution in the embodiments of the present invention.

As shown in fig. 1-5, an embodiment of the present invention provides a waste compressing device, which at least comprises:

the water tank comprises a mounting frame 1 and a water tank 2 arranged in the mounting frame 1, wherein the mounting frame 1 is in a frame shape, so that the water tank 2 is naturally formed in the mounting frame, the top of the water tank 2 is provided with an opening, the water tank 2 is used for loading a water body during integral work, meanwhile, the bottom of the water tank 2 is provided with a water outlet, and the water outlet is provided with a corresponding valve for discharging waste water after the integral work;

the grinding mechanism 3 and the power part 4 are installed on the installation frame 1, the grinding mechanism 3 is the same as a grinding part on an existing compression mechanism, and mainly comprises two grinding rollers, so that waste batteries are ground into crushed slag when the two grinding rollers are matched with each other to work, the grinding mechanism 3 and an opening of the water tank 2 are located on the same vertical surface, namely the grinding mechanism 3 is located above the opening, namely the two grinding rollers are installed above the opening of the water tank 2, so that the crushed slag automatically falls into the lower water tank 2 after being pressed out, specifically, the two grinding rollers obtain working power through the power part 4, namely the power part 4 drives the two grinding rollers to synchronously and reversely rotate, the power part 4 is specifically a high-power motor installed on one side of the installation frame 1, the two grinding rollers are connected through synchronous gear transmission, one of the grinding rollers can obtain rotary power through the motor, and accordingly the two grinding rollers can synchronously and reversely rotate;

the stirring mechanism 5 is installed in the water tank 2, the stirring mechanism 5 is used for stirring water to enable the water to move so as to enable the interior of a water body to form a dark current, after the slag falls into the water body, the action of the dark current in the water body can accelerate the water body to wash heavy metal powder on the slag, and as the dark current is not generated at one place, the dark current can be generated in the whole water body as long as one place is stirred, the slag is always washed at the beginning of entering the interior of the water body, and particularly, the stirring mechanism 5 still obtains working power through the power part 4, namely obtains stirring power through the motor;

the conveying mechanism 6 is arranged in the water tank 2, the conveying mechanism 6 is arranged in the vertically middle position of the water tank 2 and is approximately positioned at half of the water depth, when the crushed slag falls to the position, the crushed slag is brought to the outside of the whole machine body, namely the outside of the mounting frame 1 by the conveying mechanism 6, so that the crushed slag is fished out of water, and the whole grinding treatment, namely the compression treatment, of the waste batteries is finished at the position, specifically, the conveying mechanism 6 at the position still obtains working power through the power part 4;

therefore, an integral working flow is that when the waste battery is placed between two rolling rollers, the waste battery is rolled into iron slag and falls into a water body below and is continuously washed in the water body, so that pollution powder on a slag block is washed into water, the slag is finally conveyed to the outside of the mounting frame 1 under the driving of the conveying mechanism 6, thereby completing the compression treatment of the whole waste battery, compared with the existing compression mechanism, the design can wash a large amount of pollution powder on the slag through one washing of the water body, so that the slag coming out of a machine body cannot contain a large amount of heavy metal powder, the slag is convenient to further process in subsequent steps, the influence caused by the pollution of the heavy metal powder is reduced, meanwhile, after the whole equipment completes the work, pollutants, namely, a large amount of powder cannot fall around the equipment, and cannot fall around the equipment, but directly concentrate in the water body, so that the equipment and the periphery of the equipment are not seriously polluted, thereby, when the whole equipment is treated in subsequent processes, a drain valve is directly opened, the powder can be directly discharged to the periphery of the whole equipment, and the metal powder can be directly discharged to be concentrated to reduce the pollution of the environment, and the environment pollution of the waste water can be concentrated.

As shown in fig. 3 and 4, in some embodiments, the stirring mechanism 5 includes a rotating rod 7 rotatably installed in the water tank 2, a turning plate 8 is disposed on the rotating rod 7, the turning plate 8 is fixed on the rotating rod 7, and the number of the turning plates can be multiple, when the rotating rod 7 rotates, the turning plate 8 is driven to move, so as to stir the water body, so that the inside of the water body generates flow, so as to wash the slag, the rotating rod 7 obtains the rotating power through the power component 4, that is, the rotating rod 7 is still driven to rotate through the motor.

In order to reduce the rotation resistance of the flap 8 during rotation, as shown in fig. 3, in some embodiments, a plurality of water permeable openings 9 are disposed on the flap 8, so that the water body can pass through the water permeable openings 9, and the water permeable openings 9 allow the water body to move in multiple directions, thereby not reducing the flowing tendency of the water body.

As shown in fig. 3 and 4, in some embodiments, the number of the rotating rods 7 is several, the turning plate 8 matched with the rotating rods is also several, and the rotating rods 7 are vertically arranged in a staggered manner, that is, the rotating rods 7 are not on the same vertical surface, and the slag falls vertically after entering the water body, so that the washing effect of the water body on the slag is better through the arrangement mode.

As shown in fig. 3 and 4, in some embodiments, two symmetrical partition plates 10 are vertically spaced in the water tank 2, so as to divide the water tank 2 into a first tank body 11 and two second tank bodies 12 located at two sides of the first tank body 11, that is, two second tank bodies 12 are symmetrically distributed, the conveying mechanism 6 is disposed in the first tank body 11, and the stirring mechanism 5 is also disposed in the first tank body 11, that is, in the middle, a spacing area is formed between the bottom of the partition plate 10 and the bottom of the water tank 2, that is, a bottom plate of the partition plate 10 does not contact the bottom of the water tank 2, that is, a space area is formed between the bottom of the water tank 2, so that the bottom of the passage between the first tank body 11 and the two second tank bodies 12 is in communication, and the bottom of the water tank 2 is configured with an inclined surface 13, both ends of which extend to the first tank body 11 and the second tank body 12, that one inclined surface 13 is connected between each second tank body 12 and the first tank body 11, so that there are two inclined surfaces 13, upper top sides of the two inclined surfaces 13 are in contact with each other, so as to form a structure of a character-shaped structure, when metal powder drops from the first tank body 11, it is not easily dropped down, so that the powder is not easily washed down by a large amount of the vertical groove and the stirring mechanism, so that the stirring mechanism is not easily washed down, so that the stirring mechanism and the stirring mechanism is not easily flows down, and the stirring mechanism is not easily washed down, and the stirring mechanism is not moved up and the stirring mechanism is moved down.

As shown in fig. 3-5, in some embodiments, the conveying mechanism 6 includes a screen plate 14 horizontally spaced in the first trough body 11, so that the powder can penetrate through but the slag cannot penetrate through, a leakage opening 15 is provided on the screen plate 14, specifically located at a horizontal middle position, and further includes a screw mechanism 16 butted to the leakage opening 15, that is, a material guiding pipe and a screw conveying rod rotatably installed in the material guiding pipe, the rotation power of the screw conveying rod is specifically obtained by the power component 4, that is, specifically obtained by the motor, a material inlet is configured on the material guiding pipe, and is butted to the leakage opening 15, a discharge end of the whole screw mechanism 16 extends to the outside of the water tank 2, that is, a material guiding pipe discharge port is located at the outside of the frame body, when the slag falls onto the screen plate 14, the accumulated slag falls into the material inlet of the material guiding pipe, so that the accumulated slag is conveyed to the outside of the material guiding pipe by the screw conveying rod, and a section of the material falling pipe located in the water tank 2 is configured with mesh openings, so that the powder cannot directly accumulate on the material guiding pipe.

As shown in fig. 1 and 3, in some embodiments, the rolling mechanism 3 is in transmission connection with one of the rotating rods 7 through a first pulley assembly 17, that is, one of the rolling rollers is in transmission connection with one of the rotating rods 7 through the first pulley assembly 17, and several rotating rods 7 are in transmission connection with each other through a second pulley assembly 18, so that when the rolling rollers rotate, the rolling rollers can drive the two rotating rods 7 to rotate, so that the whole stirring mechanism 5 is driven to operate, and one of the rotating rods 7 is in transmission connection with the screw mechanism 16 through a third pulley assembly 19, that is, in transmission connection with the spiral conveying rod, so that after any one rolling roller obtains the power of the motor, all the components rotate, so as to simultaneously operate the rolling mechanism 3, the stirring mechanism 5 and the conveying mechanism 6, wherein the rolling mechanism 3 directly obtains the operating power from the power component 4, and wherein one rolling roller is directly connected with the output shaft of the motor, so that the motor can carry multiple mechanisms to operate simultaneously.

As shown in fig. 1 and 3, in some embodiments, the transmission ratio of the first pulley assembly 17 is not lower than 200%, i.e. when the lamination roller rotates one turn, the rotating rod 7 rotates at least two turns and more, which makes it possible to increase the stirring speed of the water.

As shown in fig. 3 to 5, in some embodiments, the mesh plate 14 gradually decreases in height from the peripheral side thereof to the discharge opening 15, thereby forming a shape similar to a funnel, which facilitates the dropping of the slag into the feed opening of the guide tube to increase the conveying speed, and also reduces the accumulation of the slag on the mesh plate 14.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. A waste material compressing apparatus, comprising:

the water tank comprises a mounting frame (1) and a water tank (2) arranged in the mounting frame (1);

the grinding mechanism (3) and the power part (4) are mounted on the mounting frame (1), the grinding mechanism (3) and an opening of the water tank (2) are positioned on the same vertical surface, and working power is obtained through the power part (4);

a stirring mechanism (5) installed in the water tank (2) and obtaining working power through the power part (4);

and the transmission mechanism (6) is arranged in the water tank (2) and obtains working power through the power part (4).

2. A waste compressing device as claimed in claim 1, wherein the stirring mechanism (5) comprises a rotating rod (7) rotatably mounted in the water tank (2) and provided with a turning plate (8), and the rotating rod (7) is provided with a power part (4) for obtaining the rotating power.

3. A waste compressing device as claimed in claim 2, wherein a plurality of water permeable openings (9) are provided all over the flap (8).

4. A scrap compression device according to claim 2, characterised in that the turning bars (7) are several in number and are arranged vertically staggered.

5. The waste material compression device as claimed in claim 1, wherein two symmetrical partition plates (10) are vertically arranged in the water tank (2) at an interval so as to divide the water tank (2) into a first tank body (11) and two second tank bodies (12) positioned at two sides of the first tank body (11), the conveying mechanism (6) is arranged in the first tank body (11), a spacing area is formed between the bottom of the partition plate (10) and the bottom of the water tank (2), and the bottom of the water tank (2) is configured with an inclined surface (13), and two ends of the inclined surface respectively extend to the first tank body (11) and the second tank body (12).

6. The waste material compressing apparatus as claimed in claim 5, wherein the conveying mechanism (6) comprises a screen (14) horizontally arranged in the first tank (11) and provided with a leakage opening (15), and a screw mechanism (16) butted at the leakage opening (15), and a discharge end of the screw mechanism extends to the outside of the water tank (2).

7. A waste material compressing device according to claim 2, characterized in that the rolling mechanism (3) is in transmission connection with one of the rotating rods (7) through a first pulley assembly (17), a plurality of the rotating rods (7) are in transmission connection with one another through a second pulley assembly (18), one of the rotating rods (7) is in transmission connection with the screw mechanism (16) through a third pulley assembly (19), and the rolling mechanism (3) directly obtains the working power from the power part (4).

8. A scrap compression device in accordance with claim 7, characterised in that the transmission ratio of the first pulley unit (17) is not lower than 200%.

9. A scrap compression device in accordance with claim 6, characterised in that the height of the screen (14) decreases from its periphery to the discharge opening (15).

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