CN217190188U - Lithium manganate production is with deironing device that sieves - Google Patents

Abstract

The utility model discloses a lithium manganate production is with deironing device that sieves relates to the device field that sieves, comprising a main body, the inner wall sliding connection of main part has three corner box, two sets of arresting blocks with main part fixed connection have been cup jointed at three corner box's both ends, three corner box bottom mounting have two sets of cover frames, and are two sets of be fixed with the connecting strip between the cover frame, one side of connecting strip is fixed with two sets of set square, the inner wall of cover frame is equipped with the multiunit hemispheroid. The utility model discloses a set up trapezoidal frame, cover frame, hemispheroid, connecting strip, set square, spring, lug, trapezoidal plate, magnet, the groove of keeping in, trapezoidal plate, a conducting strip, No. two conducting strips mutually support for the lithium manganate rolls to both sides along trapezoidal frame, and magnet is adsorbed by its iron fillings, and when the set square reduced, order about the magnet upset and lose magnetism, thereby slide adsorbed iron fillings to trapezoidal frame inside, avoid influencing follow-up continuation adsorption iron fillings, make to take out iron fillings efficiency and quality higher to the lithium manganate.

Description

Lithium manganate production is with deironing device that sieves

Technical Field

The utility model relates to a device field that sieves specifically is a lithium manganate production is with deironing device that sieves.

Background

The lithium manganate process flow comprises the steps of burdening, mixing, sintering, mixing, sieving, deironing, automatically packaging and warehousing. The three process flows are all powder materials, and after the lithium manganate without impurities is processed, the quality of the battery can be better improved, so that the lithium manganate powder needs to be subjected to iron removal treatment.

And present the lithium manganate production is with deironing device that sieves has certain not enough, and deironing effect is not good, and present the lithium manganate production is with the mode that deironing device passed through the shale shaker to carry out the deironing to the lithium manganate, owing to paste the absorption on the shale shaker to make the sieve mesh blocked up, thereby make the deironing effect of lithium manganate not good.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing a lithium manganate production is with deironing device that sieves to solve the technical problem who provides in the above-mentioned background.

In order to achieve the above object, the utility model provides a following technical scheme: a sieving iron removal device for lithium manganate production comprises a main body, wherein the inner wall of the main body is slidably connected with a triangular frame, two groups of blocking plates fixedly connected with the main body are sleeved at two ends of the triangular frame, two groups of sleeve frames are fixed at the bottom ends of the triangular frame, a connecting strip is fixed between the two groups of sleeve frames, one side of the connecting strip is fixed with two groups of triangular plates, the inner wall of each sleeve frame is provided with a plurality of groups of hemispheroids, the outer wall of each blocking plate is provided with a trapezoidal frame, one side of each trapezoidal frame is provided with two groups of convex blocks extending to the inside of each blocking plate, one side of each convex block is provided with a spring fixedly connected with the blocking plates, two groups of temporary storage grooves are formed in the top end of each trapezoidal frame, two groups of magnets rotatably connected with the trapezoidal frames are arranged in the temporary storage grooves, trapezoidal plates extending to the outer sides of the trapezoidal frames are arranged below the magnets, and two groups of conducting plates are arranged at two ends of the magnets, and a first conducting plate fixedly connected with the trapezoid frame is arranged on one side of the second conducting plate.

Through adopting above-mentioned technical scheme for lithium manganate indirectness ration drops, avoids the lithium manganate to pile up on three corner box tops, influences subsequent absorption iron fillings process, reaches to take out the quality to iron fillings higher, and inside sliding the iron fillings that adsorb to trapezoidal frame simultaneously, avoid influencing follow-up continuation absorption iron fillings, make to take out iron fillings efficiency and quality higher to the lithium manganate.

The utility model discloses further set up to, the top of main part is equipped with the feeding frame that extends to the main part is inside, the below sliding connection of arresting plate has the collection frame that extends to the main part outside.

Through adopting above-mentioned technical scheme, conveniently pour the lithium manganate into main part inside and get rid of iron fillings, and the convenient lithium manganate after will handling takes out the outside.

The utility model discloses further set up to, the inside of main part is located the below of three angular frame and installs the motor, the output of motor is connected with oval dish.

Through adopting above-mentioned technical scheme, the rotatory oval dish of driving of motor output is reciprocal to promote the triangle frame and is gone up and down.

The utility model discloses further set up to, the inside of trapezoidal frame is equipped with and extends to keeping away from lug one side outside iron fillings frame, and iron fillings frame one side is equipped with the arm-tie that extends to the main part outside.

Through adopting above-mentioned technical scheme, conveniently take out the outside with the inside iron fillings of iron fillings frame.

The utility model discloses further set up to, trapezoidal board top is equipped with the hawser of being connected with the magnet top, the one end of trapezoidal board is equipped with the reset spring who is connected with trapezoidal frame.

Through adopting above-mentioned technical scheme, pulling magnet upset slope to drop iron fillings to trapezoidal frame inside, and carry out automatic re-setting to trapezoidal plate.

The utility model discloses further set up to, one side that No. two conducting strips were kept away from to the magnet tip is equipped with the foundation column that extends to trapezoidal frame inside, the outer wall of foundation column has cup jointed the torsional spring that extends to trapezoidal frame inside.

Through adopting above-mentioned technical scheme, produce reverse torsion to magnet to be convenient for continuously adsorb iron fillings.

To sum up, the utility model discloses mainly have following beneficial effect:

1. the utility model discloses a set up three angular frame, block board and sieve mutually supports together, make lithium manganate indirectness quantitative drop, avoid lithium manganate to pile up on three angular frame tops, influence subsequent absorption iron fillings process, reach and take out the quality to iron fillings higher;

2. the utility model discloses a set up trapezoidal frame, cover frame, hemispheroid, connecting strip, set square, spring, lug, trapezoidal plate, magnet, the groove of keeping in, trapezoidal plate, a conducting strip, No. two conducting strips mutually support for the lithium manganate rolls to both sides along trapezoidal frame, and magnet is adsorbed by its iron fillings, and when the set square reduced, order about the magnet upset and lose magnetism, thereby slide adsorbed iron fillings to trapezoidal frame inside, avoid influencing follow-up continuation adsorption iron fillings, make to take out iron fillings efficiency and quality higher to the lithium manganate.

Drawings

Fig. 1 is a main body of the present invention;

FIG. 2 is a three-dimensional ladder frame of the present invention;

fig. 3 is a top view of the magnet of the present invention;

fig. 4 is a side view of the magnet of the present invention;

fig. 5 is a perspective view of the frame of the present invention.

In the figure: 1. a main body; 2. a triangular frame; 3. a damming board; 4. an elliptical disk; 5. a motor; 6. a trapezoidal frame; 7. sleeving a frame; 71. a hemisphere; 72. a connecting strip; 73. a set square; 8. a spring; 9. a bump; 10. a trapezoidal plate; 11. a magnet; 12. a temporary storage tank; 13. a torsion spring; 14. a base pillar; 15. a first conductive sheet; 16. a second conducting strip; 17. a cable.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The following describes an embodiment of the present invention according to its overall structure.

A sieving and iron removing device for lithium manganate production is shown in figures 1-5 and comprises a main body 1, wherein the inner wall of the main body 1 is slidably connected with a triangular frame 2, two ends of the triangular frame 2 are sleeved with two groups of baffle plates 3 fixedly connected with the main body 1, a collecting frame extending to the outer side of the main body 1 is slidably connected below the baffle plates 3, two groups of sleeve frames 7 are fixed at the bottom ends of the triangular frame 2, a connecting strip 72 is fixed between the two groups of sleeve frames 7, two groups of triangular plates 73 are fixed at one side of the connecting strip 72, a plurality of groups of hemispheres 71 are arranged on the inner wall of the sleeve frame 7, a trapezoidal frame 6 is arranged on the outer wall of the baffle plate 3, two groups of convex blocks 9 extending to the inner part of the baffle plate 3 are arranged at one side of the convex blocks 9, springs 8 fixedly connected with the baffle plate 3 are arranged at one side of the convex blocks 9, two groups of temporary storage grooves 12 are arranged at the top end of the trapezoidal frame 6, two groups of magnets 11 rotatably connected with the trapezoidal frame 6 are arranged in the temporary storage grooves 12, the below of magnet 11 is equipped with trapezoidal plate 10 that extends to the trapezoidal frame 6 outside, trapezoidal plate 10 top is equipped with hawser 17 of being connected on the 11 top of magnet, the one end of trapezoidal plate 10 is equipped with the reset spring of being connected with trapezoidal frame 6, trapezoidal plate 10 automatic re-setting after the removal, thereby be convenient for follow-up work, the both ends of magnet 11 are equipped with two sets of No. two conducting strips 16, one side of No. two conducting strips 16 is equipped with a conducting strip 15 with trapezoidal frame 6 fixed connection, one side that No. two conducting strips 16 were kept away from to 11 tip of magnet is equipped with the base pillar 14 that extends to trapezoidal frame 6 inside, the outer wall of base pillar 14 has cup jointed and has extended to the inside torsional spring 13 of trapezoidal frame 6, make magnet 11 rotate the slope with 14 bit of base pillar, thereby slide adsorbed iron fillings to the inside of trapezoidal frame 6.

Referring to fig. 1, a feeding frame extending into the main body 1 is arranged at the top end of the main body 1, a motor 5 is installed in the main body 1 below the triangular frame 2, an output end of the motor 5 is connected with an elliptical disk 4, the elliptical disk 4 is driven by the output end of the motor 5 to rotate, the elliptical disk reciprocally pushes the triangular frame 2 to lift and close with the feeding frame, and accordingly lithium manganate is discharged discontinuously.

Referring to fig. 1 and 2, an iron scrap frame extending to the outside of the side away from the protrusion 9 is disposed inside the trapezoid frame 6, a pulling plate extending to the outside of the main body 1 is disposed on one side of the iron scrap frame, the pulling plate is pulled to drive the iron scrap frame to extend out, and the iron scrap is removed from the trapezoid frame 6 until the iron scrap frame moves to the outside of the main body 1.

The utility model discloses a theory of operation does: the output end of the motor 5 drives the elliptical disc 4 to rotate, the elliptical disc pushes the triangular frame 2 to move up and down to be combined with the feeding frame in a reciprocating mode, lithium manganate at the outer wall of the triangular frame 2 is driven to slide to the top end of the trapezoid frame 6 through the top end of the blocking plate 3 when the triangular frame 2 rises, the triangular frame 2 simultaneously drives the sleeve frame 7 at the bottom end to rise along with the lithium manganate, the hemispheroids 71 at the inner wall reciprocally extrude the convex blocks 9 to be matched with the springs 8 to reset, the trapezoid frame 6 is driven to move left and right, residual lithium manganate at the top end of the trapezoid frame 6 is driven to two conducting plates, scrap iron falls into the collecting frame below, the scrap iron is adsorbed into the grooves 12 by the magnets 11, when the sleeve frame 7 is driven by the temporary storage frame 2 to fall, the triangular plate 73 extrudes the trapezoid plates 10 to enter the trapezoid frame 6, the magnets 11 are pulled by the cables 17 to rotate around the base columns 14 to compress the torsional springs 13, and the second conducting plate 16 is driven to be separated from the first conducting plate 15, thereby the electrical property of disconnection magnet 11 makes it lose magnetic force to slide the top iron fillings of magnet 11 to the inside that is located the iron fillings frame of trapezoidal frame 6, thereby accomplish the clearance of iron fillings, avoid influencing follow-up continuous absorbent effect.

Although embodiments of the present invention have been shown and described, it is intended that the present embodiments be illustrative only and not limiting to the invention, and that the particular features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples, and that modifications, substitutions, variations, and the like, which are not inventive in light of the above teachings, may be made to the embodiments by those skilled in the art without departing from the principles and spirit of the present invention, but are to be construed as broadly as the following claims.

Claims (6)

1. The utility model provides a lithium manganate production is with deironing device that sieves, includes main part (1), its characterized in that: the inner wall of the main body (1) is connected with a triangular frame (2) in a sliding mode, two sets of blocking plates (3) fixedly connected with the main body (1) are sleeved at two ends of the triangular frame (2), two sets of sleeve frames (7) are fixed at the bottom end of the triangular frame (2), a connecting strip (72) is fixed between the two sets of sleeve frames (7), two sets of triangular plates (73) are fixed on one side of the connecting strip (72), a plurality of hemispheroids (71) are arranged on the inner wall of each sleeve frame (7), a trapezoidal frame (6) is arranged on the outer wall of each blocking plate (3), two sets of convex blocks (9) extending into the blocking plates (3) are arranged on one side of each trapezoidal frame (6), springs (8) fixedly connected with the blocking plates (3) are arranged on one side of each convex block (9), two sets of temporary storage grooves (12) are formed in the top ends of the trapezoidal frames (6), two sets of magnets (11) rotatably connected with the trapezoidal frames (6) are arranged in the temporary storage grooves (12), the lower part of magnet (11) is equipped with trapezoidal plate (10) that extends to the trapezoidal frame (6) outside, the both ends of magnet (11) are equipped with two sets of No. two conducting strips (16), one side of No. two conducting strips (16) is equipped with a conducting strip (15) with trapezoidal frame (6) fixed connection.

2. The sieving and iron removing device for lithium manganate production according to claim 1, characterized in that: the top of main part (1) is equipped with the feeding frame that extends to the main part (1) inside, the below sliding connection of arresting plate (3) has the collection frame that extends to the main part (1) outside.

3. The sieving and iron removing device for lithium manganate production according to claim 1, characterized in that: the inside of main part (1) is located the below of triangle frame (2) and installs motor (5), the output of motor (5) is connected with oval dish (4).

4. The sieving and iron removing device for lithium manganate production according to claim 1, characterized in that: the inside of trapezoidal frame (6) is equipped with and extends to keeping away from lug (9) one side outside iron fillings frame, and iron fillings frame one side is equipped with the arm-tie that extends to the main part (1) outside.

5. The sieving and iron removing device for lithium manganate production according to claim 1, characterized in that: and a cable (17) connected with the top end of the magnet (11) is arranged at the top end of the trapezoidal plate (10), and a return spring connected with the trapezoidal frame (6) is arranged at one end of the trapezoidal plate (10).

6. The sieving and iron removing device for lithium manganate production according to claim 1, characterized in that: magnet (11) tip is kept away from one side of No. two conducting strips (16) and is equipped with pillar (14) that extend to trapezoidal frame (6) inside, the outer wall of pillar (14) has cup jointed torsional spring (13) that extend to trapezoidal frame (6) inside.

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