CN216631818U - Dual-mode neodymium iron boron discharging processing equipment - Google Patents

Abstract

The utility model relates to the technical field of neodymium iron boron polishing production, in particular to dual-mode neodymium iron boron discharging processing equipment; the device comprises a soft water pool for storing soft water, wherein a lifting device is arranged on the side part of the soft water pool, and a reciprocating assembly for driving a soaking frame to reciprocate is fixed on the lifting device; the soaking frame is detachably fixed with the reciprocating assembly through a linkage frame; the side part of the soft water pool is provided with a lifting device for adjusting the overall height of the soaking frame; the effect produced by different heights of the soaking frames is different; when the lifting device controls the soaking frame to enable soft water to submerge the neodymium iron boron steel sheet, the device has the soaking function.

Description

Dual-mode neodymium iron boron discharging processing equipment

Technical Field

The utility model relates to the technical field of neodymium iron boron polishing production, in particular to dual-mode neodymium iron boron discharging processing equipment.

Background

The neodymium iron boron rare earth permanent magnet material serving as a third-generation rare earth permanent magnet material is firstly developed commercially by Japan Sumitomo metals and American GM company in 1983, and is widely applied to the fields of power electronics, communication, information, motors, transportation, office automation, medical instruments, military and the like due to the characteristics of high remanence, high coercivity and high magnetic energy product.

The surface of the neodymium iron boron permanent magnet is generally required to be smooth and reach certain precision, and the surface of the magnet delivered from the blank needs to be subjected to surface flat grinding; the magnet is difficult to be formed in one step in the production process, and the general production flow is that a large block of blank is produced firstly, and after sintering and smelting treatment, mechanical processing and flat grinding processing and surface coating treatment are carried out; and finally, carrying out magnetizing treatment on the neodymium iron boron.

In the processing process, the surface of the magnet delivered by the blank needs to be subjected to surface flat grinding processing; the general method is that after sintering and smelting treatment, mechanical processing and flat grinding processing and surface coating treatment are carried out; finally, carrying out magnetizing treatment on the neodymium iron boron; specifically, in the process of machining the neodymium iron boron machine, firstly, a neodymium iron boron blank is preliminarily sliced through a slicing machine to form a plurality of neodymium iron boron steel sheets, the sliced neodymium iron boron steel sheets are subjected to surface polishing through a polishing device, the polished neodymium iron boron steel sheets are placed into a cleaning pool after polishing is finished, and soft water is filled in the cleaning pool; the soaking of the soft water can remove impurities and oil stains adhered to the upper edge of the neodymium iron boron steel sheet; the existing cleaning equipment only comprises a cleaning pool and a filter screen, the polished neodymium iron boron steel sheet is soaked in the cleaning pool, and finally the cleaned neodymium iron boron steel sheet is taken out through the filter screen; therefore, impurities and oil stains on the neodymium iron boron steel sheet are difficult to clean in a simple soaking and cleaning mode; therefore, the inventor designs a neodymium iron boron steel sheet cleaning device; the cleaning basket of the device can reciprocate up and down, and the neodymium iron boron steel sheet reciprocates up and down along with the cleaning basket, so that the cleaning of impurities and oil stains is facilitated.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model provides dual-mode neodymium iron boron discharging processing equipment, a cleaning frame of the device can reciprocate up and down, and a neodymium iron boron steel sheet moves along with the cleaning frame; the flow of soft water in the soft water tank is increased, and the cleaning of impurities and oil stains on the neodymium iron boron steel sheet is facilitated.

The technical scheme adopted by the utility model is as follows: a dual-mode neodymium iron boron discharging processing device comprises a soft water pool for storing soft water, wherein a lifting device is arranged on the side part of the soft water pool, and a reciprocating assembly for driving a soaking frame to reciprocate is fixed on the lifting device; the soaking frame is detachably fixed with the reciprocating assembly through a linkage frame; after the lifting device drives the soaking frame to be soaked in the soft water tank, the reciprocating assembly drives the soaking frame to move up and down in the soft water tank, and the bearing materials in the frame are stirred with the cleaning liquid in the soft water tank; after the lifting device drives the soaking frame to lift away from the soft water pool, the reciprocating assembly drives the soaking frame to suspend and move up and down, and the bearing objects in the frame are separated from the soft water on the surface of the bearing objects in a vibration mode.

Specifically, the reciprocating assembly comprises a chute fixed with the lifting device, and a limiting plate is arranged at the end part of one side of the chute; the sliding plate is in sliding fit in the sliding chute, one side of the sliding plate is provided with a limiting column, the limiting column penetrates through a channel on the limiting plate to be in sliding fit, and the end part of the limiting column is provided with a non-return plate for preventing the non-return plate from falling off; a compression spring is arranged on the limiting column between the sliding plate and the limiting plate in a penetrating way; and a connecting plate is arranged between the two sliding grooves, a speed reducing motor is arranged on the connecting plate, a cam is fixedly connected to a motor shaft of the speed reducing motor, and the cam is in contact fit with the sliding plate.

Further, one implementation mode of the reciprocating assembly is that the sliding plate is positioned at the lower side of the limiting plate, and the soaking frame is fixed with the sliding plate through the linkage frame; the other mode of the reciprocating assembly is that the sliding plate is positioned on the upper side of the limiting plate, and the soaking frame is fixed with the check plate through the linkage frame.

Furthermore, a plurality of clamping rings used for clamping the soaking frame are formed in the middle of the linkage frame, and a connecting column fixed with the reciprocating assembly is arranged in the vertical direction.

Optionally, the basket body and the bottom of the soaking frame are of a filter screen structure; the opening of the soaking frame is provided with a flanging extending out of the basket body, and the structure of the flanging corresponds to that of the basket body; two handles are oppositely arranged on the upper side of the flanging.

Furthermore, a fixed pulley matched with the cam is arranged on the sliding plate, and a roller of the fixed pulley is in contact fit with the side part of the cam.

The utility model achieves the following beneficial effects: the side part of the soft water pool is provided with a lifting device for adjusting the overall height of the soaking frame; the effect produced by different heights of the soaking frames is different; when the lifting device controls the soaking frame to enable soft water to submerge the neodymium iron boron steel sheet, the device has the soaking function; when the lifting device controls the soaking frame to ascend and the soaking frame is integrally positioned above the soft water level, the device has the function of draining water; the neodymium iron boron steel sheet is taken out after draining, so that water drops can be prevented from everywhere after the neodymium iron boron steel sheet is taken out; when cleaning, the cleaning frame can reciprocate up and down, and the neodymium iron boron steel sheet moves along with the cleaning frame; the flow of the soft water in the soft water tank is increased; when the water is drained, the reciprocating component drives the soaking frame to suspend and move up and down, and the bearing objects in the frame are separated from the soft water on the surface of the bearing objects in a vibration mode.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the position of the lifting device of the present invention.

Fig. 3 is a schematic structural view of a first embodiment of the reciprocating assembly of the present invention.

Fig. 4 is a schematic illustration of the crown block position of the present invention.

FIG. 5 is a schematic view of the structure of the soaking frame of the present invention.

Fig. 6 is a schematic structural view of a first embodiment of the reciprocating assembly of the present invention.

Fig. 7 is a schematic view of the position of the gear motor of the present invention.

In the figure, 1, a soft water tank; 2. a lifting device; 3. a reciprocating assembly; 4. a chute; 5. a slide plate; 6. a limiting plate; 7. a limiting column; 8. a check plate; 9. a compression spring; 10. a connecting plate; 11. a reduction motor; 12. a cam; 13. soaking the frame; 14. a snap ring; 15. connecting columns; 16. flanging; 17. a handle; 18. and a fixed pulley.

Detailed Description

To facilitate an understanding of the utility model for those skilled in the art, a specific embodiment thereof will be described below with reference to the accompanying drawings.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two elements can be directly connected or indirectly connected through an intermediate medium, and the two elements can be communicated with each other; the specific meanings of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

In the processing process, the surface of the magnet delivered by the blank needs to be polished; the general method is that after sintering and smelting treatment, the alloy is processed by mechanical processing, flat grinding and surface coating treatment; finally, magnetizing the most neodymium iron boron; specifically, the neodymium iron boron machining process comprises the steps of firstly, preliminarily slicing neodymium iron boron blanks through a slicing machine to form a plurality of neodymium iron boron steel sheets, polishing the surfaces of the sliced neodymium iron boron steel sheets through a polishing device, placing the polished neodymium iron boron steel sheets into a cleaning pool after polishing is completed, and soft water is filled in the cleaning pool; the soaking of the soft water can remove impurities and oil stains adhered to the upper edge of the neodymium iron boron steel sheet; as shown in FIG. 1, the utility model provides a dual-mode NdFeB discharging processing device, which comprises a soft water pool 1 for storing soft water, a drainage pipe and a sealing plug which are necessary on the side part of the soft water pool 1, wherein the sealing plug can be opened to prevent water; soft water is used for soaking and washing the neodymium-iron steel sheet; the soft water refers to water containing no or less soluble calcium and magnesium compounds, and if the neodymium iron boron is ordinary water under the condition that the neodymium iron boron is in direct contact with the water, because the water contains hardness components such as Ca2+, Mg2+ and the like, the soft water can be deposited on the surface of metal to form a less-compact and thin protective layer, and if the protective layer is formed, the electroplating effect is influenced; the side part of the soft water pool 1 is provided with a lifting device 2 for adjusting the whole height of the soaking frame 13; the effect produced by the different heights of the soaking frame 13 will also be different; when the lifting device 2 controls the soaking frame 13 to enable soft water to submerge the neodymium iron boron steel sheet, the device has the soaking function at the moment; when the lifting device 2 controls the soaking frame 13 to ascend, so that the soaking frame 13 is wholly positioned above the level of the soft water, the device has a draining function; the neodymium iron boron steel sheet is taken out after draining, and water drops can be prevented from being everywhere after the neodymium iron boron steel sheet is taken out.

As shown in fig. 2, the lifting device 2 may be two guide rail screw sliding tables which are arranged oppositely, or may also be a push rod guide rail sliding table, a slider for executing actions of the lifting device 2 is fixed with the reciprocating assembly 3, and the reciprocating assembly 3 is used for driving the soaking frame 13 to reciprocate; specifically, the reciprocating assembly 3 comprises a chute 4, a limit plate 6 is arranged at one side end of the chute 4, and a channel is formed in the limit plate 6; the sliding plate 5 is in sliding fit in the sliding chute 4, one side of the sliding plate 5, which is close to the limiting plate 6, is provided with a limiting column 7, the limiting column 7 penetrates through a channel on the limiting plate 6 to be in sliding fit, and the end part of the limiting column 7 is provided with a check plate 8 for preventing the sliding out; a compression spring 9 penetrates through the limiting column 7 between the sliding plate 5 and the limiting plate 6, and the compression spring 9 provides resilience for the sliding plate 5; a connecting plate 10 is arranged between the two sliding grooves 4, a speed reducing motor 11 is arranged on the connecting plate 10, a cam 12 is fixedly connected to a motor shaft of the speed reducing motor 11, and the cam 12 is in contact fit with the sliding plate 5; the rotation of the motor shaft can enable the cam 12 to extrude the sliding plate 5 and enable the sliding plate 5 to slide along the sliding chute 4, so that the compression spring 9 is extruded, the cam 12 continuously rotates the elastic force of the compression spring 9 to push the sliding plate 5 to recover, and the initial state can be recovered, so that the sliding plate 5 can reciprocate up and down; the speed reducing motor 11 is a motor with a speed reducing box added and rotates slowly to enable the sliding plate 5 to do slow reciprocating motion; the soaking frame 13 is detachably fixed with the reciprocating component 3 through a linkage frame.

As shown in fig. 3-7, one embodiment of the reciprocating assembly 3 is that the sliding plate 5 is located at the lower side of the limit plate 6, and the linkage frame is fixed with the sliding plate 5; at the moment, the cam 12 is matched with the lower side of the sliding plate 5, and the speed reducing motor 11 pushes the sliding plate 5 upwards when slowly rotating, so that the sliding plate 5 is driven to move upwards along the sliding groove 4; thereby compressing the compression spring 9, and the cam 12 continues to rotate the elastic force of the compression spring 9 to push the sliding plate 5 to recover. One embodiment of the reciprocating assembly 3 is that the sliding plate 5 is positioned on the upper side of the limiting plate 6, the linkage frame is fixed with the check plate 8, and the speed reducing motor 11 pushes the sliding plate 5 downwards when rotating slowly, so as to drive the sliding plate 5 to move downwards along the sliding chute 4; thereby pressing the compression spring 9, the cam 12 continues to rotate, and the slide 5 is pushed upward by the elastic force of the compression spring 9 to be restored.

As shown in fig. 6, a plurality of clamping rings 14 for clamping the soaking frame 13 are formed in the middle of the linkage frame, and a connecting column 15 fixed with the reciprocating component 3 is vertically arranged; the basket body and the bottom of the soaking frame 13 are of a filter screen structure; the opening of the soaking frame 13 is provided with a flanging 16 extending out of the basket body, and the structure of the flanging 16 corresponds to that of the basket body; meanwhile, in order to facilitate taking out, two handles 17 are oppositely arranged on the upper side of the turned-over edge 16, and the turned-over edge can be taken out conveniently through the handles 17; the soaking frame 13 can be provided with a plurality of soaking frames, and the interior of each soaking frame 13 can prevent neodymium iron boron materials of different batches.

As shown in fig. 4, considering the abrasion between the cam 12 and the sliding plate 5, a fixed pulley 18 engaged with the cam 12 is provided on the sliding plate 5, and the roller of the fixed pulley 18 contacts with the side of the cam 12, changing the sliding friction into the rolling friction, increasing the stability of the structure.

The above-mentioned fixing methods, if not separately described, all use the means of common technique of those skilled in the art, such as welding, nesting, or screw fixing.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above-described embodiments of the present invention do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a dual mode neodymium iron boron ejection of compact treatment facility which characterized in that: comprises a soft water pool (1) for storing soft water, wherein the side part of the soft water pool (1) is provided with a lifting device (2), and a reciprocating component (3) for driving a soaking frame (13) to reciprocate is fixed on the lifting device (2); the soaking frame (13) is detachably fixed with the reciprocating component (3) through a linkage frame; after the lifting device (2) drives the soaking frame (13) to be soaked in the soft water pool (1), the reciprocating component (3) drives the soaking frame (13) to move up and down in the soft water pool (1), and materials loaded in the frame are stirred with cleaning liquid in the soft water pool (1); after the lifting device (2) drives the soaking frame (13) to lift away from the soft water pool (1), the reciprocating component (3) drives the soaking frame (13) to suspend in the air to move up and down, and the bearing objects in the frame are separated from the soft water on the surface of the bearing objects in a vibration mode.

2. The dual-mode neodymium-iron-boron discharging processing device according to claim 1, characterized in that: the reciprocating assembly (3) comprises a sliding chute (4) fixed with the lifting device (2), and a limiting plate (6) is arranged at the end part of one side of the sliding chute (4); the sliding plate (5) is in sliding fit in the sliding chute (4), one side of the sliding plate (5) is provided with a limiting column (7), the limiting column (7) passes through a channel on the limiting plate (6) to be in sliding fit, and the end part of the limiting column (7) is provided with a check plate (8) for preventing the sliding out; a compression spring (9) penetrates through the limiting column (7) between the sliding plate (5) and the limiting plate (6); a connecting plate (10) is arranged between the two sliding grooves (4), a speed reducing motor (11) is arranged on the connecting plate (10), a cam (12) is fixedly connected to a motor shaft of the speed reducing motor (11), and the cam (12) is in contact fit with the sliding plate (5).

3. The dual-mode neodymium-iron-boron discharging processing device according to claim 2, characterized in that: the sliding plate (5) is positioned at the lower side of the limiting plate (6), and the soaking frame (13) is fixed with the sliding plate (5) through the linkage frame.

4. The dual-mode neodymium-iron-boron discharging processing device according to claim 2, characterized in that: the sliding plate (5) is positioned on the upper side of the limiting plate (6), and the soaking frame (13) is fixed with the check plate (8) through the linkage frame.

5. The dual-mode neodymium-iron-boron discharging processing device according to claim 1, characterized in that: a plurality of clamping rings (14) used for clamping the soaking frame (13) are formed in the middle of the linkage frame, and a connecting column (15) fixed with the reciprocating component (3) is arranged in the vertical direction.

6. The dual-mode neodymium-iron-boron discharging processing device according to claim 5, characterized in that: the basket body and the bottom of the soaking frame (13) are of a filter screen structure; the opening of the soaking frame (13) is provided with a flanging (16) extending out of the basket body, and the structure of the flanging (16) corresponds to that of the basket body; two handles (17) are oppositely arranged on the upper side of the turned-over edge (16).

7. The dual-mode neodymium-iron-boron discharging processing device according to claim 1, characterized in that: the sliding plate (5) is provided with a fixed pulley (18) matched with the cam (12), and a roller of the fixed pulley (18) is in contact fit with the side part of the cam (12).

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