CN223856051U - A soft magnetic drying and storage device for zinc ferrite - Google Patents

Abstract

The utility model relates to a drying storage device, in particular to a zinc ferrite soft magnetic drying storage device. According to the technical scheme, the zinc ferrite soft magnetic drying storage device comprises a storage box, blocking blocks, heating modules, heat pipes and the like, wherein two sides of the lower portion of the storage box are respectively provided with a discharge hole, the blocking blocks are respectively connected to two discharge holes of the storage box in a sliding mode, the heating modules are symmetrically and fixedly connected to the middle of the storage box, and the heat pipes are fixedly connected to one sides, away from the storage box, of the two heating modules. According to the utility model, the soft magnet is poured into the storage box, the heating module is started to generate hot air, and the hot air flows into the storage box through the heat pipe, so that the soft magnet is dried and stored, the problems of performance degradation or rust and the like caused by dampness in soft magnet storage are prevented, and the long-term storage quality of the soft magnet is improved.

Description

Zinc ferrite soft magnetic drying storage device

Technical Field

The utility model relates to a drying storage device, in particular to a zinc ferrite soft magnetic drying storage device.

Background

The zinc ferrite soft magnetic is an important inorganic nonmetallic material, and has good soft magnetic performance, high resistivity and stable chemical property. The preparation method is generally prepared by adopting a plurality of methods such as a solid phase reaction method, a sol-gel method and the like, and the particle size, the morphology and the magnetic performance can be adjusted by controlling the synthesis conditions. The zinc ferrite soft magnetic is attractive because of the excellent performances of the zinc ferrite soft magnetic in the fields of microwave absorption, electromagnetic shielding and the like, accords with RoHS standard, and is a green and environment-friendly choice.

If the zinc ferrite soft magnetic is not properly dried during storage, a series of problems can be faced, firstly, the magnetic powder is easy to absorb moisture, the moisture content of the surface is increased, the interaction among the magnetic powder is affected, the magnetic permeability is reduced, the hysteresis loss is increased, the magnetic performance is wholly reduced, secondly, the magnetic powder is easier to agglomerate and form agglomeration in a humid environment, the difficulty is brought to subsequent processing, furthermore, although the zinc ferrite has better corrosion resistance, the surface corrosion can be still caused in the humid environment for a long time, the performance of the material is further damaged, and finally, the insulating performance of the magnetic powder can be damaged due to the increase of the humidity, so that the performance of the magnetic powder in high-frequency application is affected. Under the combined action of the problems, the service life of the zinc ferrite soft magnetic can be shortened, and the application range of the zinc ferrite soft magnetic in the specific field is limited.

Therefore, a soft magnetic drying storage device for zinc ferrite needs to be designed to solve the technical problems.

Disclosure of utility model

In order to overcome the defects of increased hygroscopicity, reduced magnetic property, agglomeration, increased corrosion risk and damaged electrical property caused by zinc ferrite soft magnetic storage and finally influence the service life and application performance of the zinc ferrite soft magnetic storage device, the utility model provides a zinc ferrite soft magnetic drying storage device.

According to the technical scheme, the zinc ferrite soft magnetic drying storage device comprises a storage box, material blocking blocks, heating modules, heat-passing pipes, a feed hopper and a top cover, wherein two sides of the lower portion of the storage box are respectively provided with a material outlet, the material blocking blocks are respectively connected to the two material outlet positions of the storage box in a sliding mode, the heating modules are symmetrically and fixedly connected to the middle portion of the storage box, the heat-passing pipes are fixedly connected to one side of each heating module, the heat-passing pipes are respectively connected and communicated with the storage box on one side of each heat-passing pipe, the top of the storage box is connected and communicated with the feed hopper, and the top cover is placed on the top of the feed hopper.

Further, the storage box further comprises a hole cover, a plurality of exhaust holes are formed in the top of the storage box, and the hole cover is fixedly connected in each exhaust hole of the storage box.

Preferably still including first motor, crank, guide block and sieve tray, the anterior fixedly connected with of storage box first motor, fixedly connected with on the output shaft of first motor the crank, sliding connection has on the feeder hopper the sieve tray, sieve tray right part fixedly connected with the guide block, the crank is in slide in the guide block.

Further, the storage box is characterized by further comprising a second motor, a rotating rod and stirring blades, wherein the second motor is fixedly connected to the inside of the storage box, the rotating rod is fixedly connected to an output shaft of the second motor, the stirring blades are fixedly connected to the rotating rod, and the stirring blades are positioned inside the storage box.

Further, the storage box inner structure is of a herringbone shape.

Further, the stirring blade is made of wear-resistant and anti-sticking materials.

The soft magnetic storage box has the beneficial effects that 1, the soft magnetic storage box is poured into the storage box, the heating module is started to generate hot air, the hot air flows into the storage box through the heat pipe, and then the soft magnetic storage box is used for drying and storing the soft magnetic, so that the problems of performance reduction or rust and the like caused by dampness during storage of the soft magnetic are prevented, and the long-term storage quality of the soft magnetic is improved.

2. According to the utility model, the first motor is started, the output shaft of the motor drives the crank to rotate, so that the sieve tray moves left and right in a reciprocating manner, the poured soft magnetic is further sieved, impurities are prevented from being mixed into the storage box, the purity and quality of the soft magnetic are improved, and the impurity interference in the subsequent processing process is reduced.

3. According to the utility model, the second motor is started, the output shaft of the motor drives the rotating rod to rotate, and the rotating rod enables the stirring blade to rotate, so that the soft magnet in the storage box fully absorbs heat, and the soft magnet is prevented from accumulating and agglomerating during storage.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

FIG. 2 is a schematic view of the partial planing structure of the parts of the feed hopper, the top cover, the hole cover, etc. of the present utility model.

Fig. 3 is a schematic view of a partial planing structure of parts such as a first motor, a crank, a guide block and the like.

Fig. 4 is a schematic view of a partial planing structure of parts such as a second motor, a rotating rod, a stirring blade and the like. In the drawings, 1 is a storage box, 2 is a plugging block, 3 is a heating module, 4 is a heat pipe, 5 is a feed hopper, 6 is a top cover, 7 is a hole cover, 8 is a first motor, 9 is a crank, 10 is a guide block, 11 is a screen disc, 12 is a second motor, 13 is a rotating rod, and 14 is a stirring blade.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The embodiment of the zinc ferrite soft magnetic drying storage device is shown in figures 1-4, and comprises a storage box 1, a material blocking block 2, a heating module 3, a heat pipe 4, a feed hopper 5, a top cover 6, a hole cover 7, a first motor 8, a crank 9, a guide block 10, a sieve tray 11, a second motor 12, a rotating rod 13 and stirring blades 14, wherein the left side and the right side of the lower part of the storage box 1 are respectively provided with a discharge hole, the internal structure of the storage box 1 is of a herringbone type, the two discharge holes of the storage box 1 are both connected with the material blocking block 2 in a sliding manner, the middle part of the storage box 1 is symmetrically provided with the heating module 3 through screws, one side of the heating module 3, far away from the storage box 1, is provided with the heat pipe 4 through screws, one side, close to each other, of the two heat pipes 4 is connected with the storage box 1 and communicated with the storage box, the top cover 5 is arranged at the top of the storage box 5, the stirring blades 14 are respectively, the motor 1 is provided with the anti-sticking motor, the motor is provided with the motor, the crank 4 is provided with the hole cover 1, the output shaft is welded with the crank 9, the output shaft is welded in the storage box 1 through the crank 9, the crank 9 is connected with the crank 9, the output shaft is welded in the side of the storage box 1 through the crank 9, the output shaft is welded in the side of the sieve tray 1 through the crank 9, the hole cover is connected with the crank 9 through the hole cover 13, the screw is welded in the front of the sieve tray 1 through the hole cover is welded with the hole 13, the stirring blade 14 is positioned inside the storage box 1.

When the soft magnetic is required to be stored, a worker firstly takes the top cover 6 upwards, the first motor 8 is started, the output shaft of the motor drives the crank 9 to rotate, the crank 9 rotates to slide in the guide block 10, when the crank 9 rotates from 0 to 90 and from 270 to 360 degrees, the sieve tray 11 moves to the right, when the crank 9 rotates from 90 to 270 degrees, the sieve tray 11 moves to the left, the crank 9 continuously rotates, the sieve tray 11 moves back and forth, the worker pours the soft magnetic into the feed hopper 5, the soft magnetic is contacted with the sieve tray 11, the sieve tray 11 screens impurities in the soft magnetic onto the sieve tray 11, pure soft magnetic can fall into the storage box 1 to be stored, after the material is discharged, the first motor 8 is closed, the output shaft of the motor stops rotating, the top cover 6 is put down into the feed hopper 5 to complete the sealing, the worker opens the heating module 3, the heating module 3 generates hot air, the hot air flows into the storage box 1 through the heat pipe 4, the soft magnetic in the storage box 1 is dried, the soft magnetic in the storage box is closed, the temperature is kept, the motor 3 can be closed, the motor 12 can be closed, the second motor is driven to rotate the soft magnetic is stopped, the rotary rod 13 can be driven to rotate, the material block 13 can be removed, the soft magnetic is stopped, and the material can be discharged, the material can be stopped and turned off, and can be discharged, and turned off, and the material block 2 can be required to be turned off, and turned off.

The embodiments described above are intended to provide those skilled in the art with a full range of modifications and variations to the embodiments described above without departing from the inventive concept thereof, and therefore the scope of the utility model is not limited by the embodiments described above, but is to be accorded the broadest scope consistent with the innovative features recited in the claims.

Claims (6)

1. The utility model provides a zinc ferrite soft magnetic drying strorage device, characterized by, including storage case (1), putty piece (2), heating module (3), logical heat pipe (4), feeder hopper (5) and top cap (6), the discharge gate has all been seted up to storage case (1) lower part both sides, two discharge gate departments of storage case (1) all slidingtype be connected with putty piece (2), the equal fixedly connected with in storage case (1) middle part symmetry heating module (3), two fixedly connected with on heating module (3) one side logical heat pipe (4), two lead to on heat pipe (4) one side all with storage case (1) are connected and communicate, storage case (1) top is connected and communicates have feeder hopper (5), top cap (6) have been placed at feeder hopper (5) top.

2. The zinc ferrite soft magnetic drying and storing device according to claim 1, further comprising a hole cover (7), wherein a plurality of exhaust holes are formed in the top of the storage box (1), and the hole cover (7) is fixedly connected in each exhaust hole of the storage box (1).

3. The zinc ferrite soft magnetic drying and storing device according to claim 2, further comprising a first motor (8), a crank (9), a guide block (10) and a screen disc (11), wherein the first motor (8) is fixedly connected to the front portion of the storage box (1), the crank (9) is fixedly connected to an output shaft of the first motor (8), the screen disc (11) is connected to the feed hopper (5) in a sliding mode, the guide block (10) is fixedly connected to the right portion of the screen disc (11), and the crank (9) slides in the guide block (10).

4. A zinc ferrite soft magnetic drying and storing device according to claim 3, further comprising a second motor (12), a rotating rod (13) and stirring blades (14), wherein the second motor (12) is fixedly connected to the inside of the storage box (1), the rotating rod (13) is fixedly connected to an output shaft of the second motor (12), the stirring blades (14) are fixedly connected to the rotating rod (13), and the stirring blades (14) are positioned inside the storage box (1).

5. A zinc ferrite soft magnetic drying and storing device according to claim 4, wherein the internal structure of the storage box (1) is herringbone.

6. A zinc ferrite soft magnetic drying and storing device according to claim 5, wherein said stirring blade (14) is made of wear-resistant and anti-sticking material.