CN208157194U - Sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system - Google Patents

Abstract

A kind of sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system, including：Feed device, feed device have the first array rail；Arranging-in-row device, arranging-in-row device have the second array rail and dock with the first array rail；Magnetizing coil component, magnetizing coil component include magnetizing coil and magnetizing coil track；Material-pulling device, material-pulling device are set to the tail end of magnetizing coil track；Pulp-collecting box, pulp-collecting box are connect with magnetizing coil track.The utility model can in high volume carry out the magnetization treatment that small size waits for magnetic workpiece on spontaneous magnetization process for producing line.The utility model carried out in vibration feeding disc and arranging-in-row device twice permutation operation, avoid mutually colliding between workpiece, reduce colliding between workpiece in magnetic history, so as to be greatly reduced magnetization after the completion of finished workpart apparent size fraction defective.Since unsaturated problem appearance of magnetizing in magnetization process to magnetic workpiece arranged regular, can also be avoided.

Description

Sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system

Technical field

The utility model relates to magnetic materials production manufacturing technology fields, more specifically, in particular to a kind of sintering neodymium Iron B permanent magnetic material automatic magnetism-charging system.

Background technique

The market demand of Nd-Fe-B permanent magnet material and industry size rapidly develop in recent years, and application field is contained All conglomeraties such as modern industry motor, microelectronics motor, new energy motor are covered.But since neodymium iron boron demand is big, type It is different, magnet magnetic flux unusually carefully and neatly arrange after, need to be manually operated magnet charger complete magnet magnetic operation.

Currently, most of production firm is mainly to be carried out with artificial permutation, manual operation magnet charger to neodymium iron boron finished product Magnetic operation magnetizes to magnet under the increasingly increased overall situation of market demand and under pressure that cost of labor rises steadily Production efficiency and the requirement of ability be also continuously improved.Using manually magnetizing, not only working efficiency, personnel cost also compared with It is high.

To solve the above-mentioned problems, for small size magnet workpiece, many neodymium iron boron manufacturing enterprises start at this stage Automatic producing technology is used for reference, workpiece is placed in progress automatic magnetism-charging operation in automation equipment.But for small size magnet For the magnetizing of workpiece, since workpiece has the characteristics that small in size, magnetic force is big, if directly continuing to use existing automatic production line, Then workpiece unsaturation can be caused to magnetize and be mixed into, knock damage equivalent damage because material is too small, a large amount of bad productions occur after causing production Product are not available.

Summary of the invention

The purpose of this utility model is to provide a kind of permanent magnetism materials that can be carried out permutation to small size magnet workpiece, magnetize Expect automatic magnetism-charging system.

To achieve the goals above, the utility model provides the following technical solutions：

A kind of sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system, for realizing filling automatically for sintered Nd-Fe-B permanent magnetic material Magnetic is disposed with by production technology sequence：

Feed device, the feed device include vibration feeding disc, and the bottom of the vibration feeding disc is provided with One electromagnetic oscillation device, in being provided with the first array rail in the vibration feeding disc；

Arranging-in-row device, the arranging-in-row device include the second array rail and position adjustment component, the second permutation rail Road can be docked with first array rail, and the position adjustment component is set to the end of second array rail, be used for Position adjustment is carried out to workpiece；

Magnetizing coil component, the magnetizing coil component include magnetizing coil and are set in the magnetizing coil Magnetizing coil track is connected with power supply device with the magnetizing coil, and the magnetizing coil track and the position adjust component Connection；

Material-pulling device, the material-pulling device are set to the tail end of the magnetizing coil track；

Pulp-collecting box, the pulp-collecting box are connect with the magnetizing coil track.

Preferably, the utility model further includes having transition conveying assembly, and the transition conveying assembly includes straight transitions Track and the second electromagnetic oscillation device for driving linear transition track vibration, second electromagnetic oscillation device are set It is placed in the bottom of the linear transition track；

One end of the linear transition track is connect with first array rail, the other end of the linear transition track It is connect with second array rail.

Preferably, first array rail is spiral track.

Preferably, the power supply device includes magnetize power supply and controller, the controller and the power supply that magnetizes Control connection, magnetize power supply and the magnetizing coil electrical connection.

Preferably, the arranging-in-row device includes permutation workbench, whole in being arranged described second on the permutation workbench Column track, in being provided with crosswise pushing device on the permutation workbench, the crosswise pushing device is for pushing workpiece along institute It states the second array rail and is moved to the position adjustment component.

The position adjustment component includes the steering driving means close to magnetizing coil component setting；

The driving means that turns to includes the steering assembly for turning to track and being set on the steering track, described It turns to track to be connected with second array rail, the steering track is connected with the magnetizing coil track.

Preferably, the steering assembly includes the first steering guide pad, the second steering guide pad, bottom plate and turns to gas Cylinder, the cylinder that turns to are set to the downside for turning to track, and the described first top surface for turning to guide pad is higher than described second The top surface of array rail, described first turn between guide pad and second array rail there are interval formed to have and turn to The steering track in gap is provided with the bottom plate below the steering track, and described second, which turns to guide pad setting, exists The lower section for turning to track simultaneously far from the side between the magnetizing coil group and is located on the bottom plate, the magnetizing coil rail Road is set in the same horizontal plane with the second steering guide pad, the bottom plate and turns to guide pad phase with described second To setting.

Preferably, the top surface of one end that second array rail turns to guide pad close to described first is cambered surface.

Preferably, the cylinder that turns to is set to the lower section for turning to track and is located at the left side for turning to track.

Preferably, the width for turning to track is less than the length and width to magnetic workpiece.

By said structure design, the utility model can in high volume carry out small size on spontaneous magnetization process for producing line and wait for The magnetization treatment of magnetic workpiece.Importantly, the utility model carried out in vibration feeding disc and arranging-in-row device it is whole twice Column operation, avoids mutually colliding between workpiece, colliding between workpiece in magnetic history is reduced, so as to substantially drop The fraction defective of finished workpart apparent size after the completion of low magnetization.Due to that can also avoid magnetizing to magnetic workpiece arranged regular The unsaturated problem that magnetizes in journey occurs.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide a further understanding of the present invention, this is practical Novel illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model. Wherein：

Fig. 1 is the structural schematic diagram of sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram of steering assembly in an embodiment of the present invention；

Description of symbols：

Feed device 1, arranging-in-row device 2, magnetizing coil component 3, power supply device 4, material-pulling device 5,

Pulp-collecting box 6, transition conveying assembly 7, to magnetic workpiece 8, bottom plate 9, turn to driving means 10, crosswise pushing device 11, first turn to guide pad 12, second turn to guide pad 13,

Turn to cylinder 14.

Specific embodiment

The utility model will be described in detail below with reference to the accompanying drawings and embodiments.Each example passes through the utility model The mode of explanation provide rather than limit the utility model.In fact, those skilled in the art will be clear that, this reality is not being departed from In the case where with novel range or spirit, it can modify in the present invention and modification.For example, being illustrated or described as one The feature of a part of a embodiment can be used for another embodiment, to generate another embodiment.Thus, it may be desirable to The utility model includes the such modifications and variations being included into the range of the following claims and their equivalents.

In the description of the present invention, term " longitudinal direction ", " transverse direction ", "upper", "lower", "front", "rear", "left", "right", The orientation or positional relationship of the instructions such as "vertical", "horizontal", "top", "bottom" is to be based on the orientation or positional relationship shown in the drawings, It is merely for convenience of description the utility model rather than requires the utility model that must be constructed and operated in a specific orientation, therefore It should not be understood as limiting the present invention.Term used in the utility model " connected ", " connection " shall be understood in a broad sense, For example, it may be being fixedly connected, may be a detachable connection；It can be directly connected, it can also be indirect by intermediate member It is connected, for the ordinary skill in the art, can understands the concrete meaning of above-mentioned term as the case may be.

Please refer to Fig. 1 and Fig. 2, wherein Fig. 1 is that sintered Nd-Fe-B permanent magnetic material fills automatically in an embodiment of the present invention The structural schematic diagram of magnetic system；Fig. 2 is the structural schematic diagram of steering assembly in an embodiment of the present invention.

The utility model provides a kind of be suitable on automatic processing production line in batches to neodymium iron boron workpiece magnetic treatment Automatic magnetism-charging system.The automatic magnetism-charging system by feed device 1, arranging-in-row device 2, magnetizing coil component 3, material-pulling device 5, fill The components such as magnetoelectricity source and pulp-collecting box 6 composition.

Wherein, feed device 1 consists of two parts, one be vibration feeding disc, another be transition conveying assembly 7.In The bottom of vibration feeding disc is provided with the first electromagnetic oscillation device, in being provided with the first array rail in vibration feeding disc.First Electromagnetic oscillation device is impulse mgnet, is connect with vibration feeding disc, and vibration feeding disc is enabled to generate vibration.

Transition conveying assembly 7 includes linear transition track and the second electromagnetism for driving linear transition track to vibrate Vibration device.Second electromagnetic oscillation device is also impulse mgnet, is connect with linear transition track, and straight transitions are enabled to Track generates vibration.

Specifically, the second electromagnetic oscillation device is set to the bottom of linear transition track；One end of linear transition track with The connection of first array rail, the other end of linear transition track are connect with the second array rail of arranging-in-row device 2.

Vibration feeding disc is connected with arranging-in-row device 2, by vibration feeding disc and arranging-in-row device 2 to material (neodymium iron boron workpiece) It is re-fed into after permutation in magnetizing coil component 3, the power supply that magnetizes later carries out pulse directional discharge, is made by magnetizing coil component 3 Material magnetic, after material magnetic again by material-pulling device 5 truncation fall into pulp-collecting box 6.

The working principle of vibration feeding disc is as follows：Vibration feeding disc includes a vibrating disk hopper, in vibrating disk hopper Below impulse mgnet is set, vibrating disk hopper can be made to make vertical vibration by impulse mgnet.It will be to magnetic work Part is put into vibrating disk hopper, is vibrated the vibration of biscuit bucket along the helical orbit in vibrating disk hopper to magnetic workpiece It rises.During rising, preliminary permutation, under effect of vibration, material row of orientation in helical orbit are carried out to magnetic workpiece Column are neat and are accurately transported in next procedure.

Arranging-in-row device 2 be the utility model in treat magnetic workpiece carry out ordered arrangement equipment, for make it is multiple to Magnetic workpiece is arranged in a manner of end to end, and carries out position adjustment to magnetic workpiece to after arrangement, will to magnetic workpiece by Horizontality is adjusted to vertical state, and arranging-in-row device 2 is provided with the second array rail, and array rail carries out object using mode of vibration Material conveying, vibrates in array rail to magnetic workpiece, conveys；It is additionally provided with position adjustment component, position adjusts component setting It in this way can be enterprising in array rail to magnetic workpiece for carrying out position adjustment to workpiece in the end of the second array rail The secondary permutation of row.

The utility model continues on the direction of automation mainly for small-size product, changes traditional artificial permutation Mode can avoid the occurrence of workpiece and knock the detrimental consequences such as side, anti-material.The purpose of this utility model seek to provide it is a kind of can from Batch carries out the device of magnetic treatment to small size neodymium iron boron workpiece in dynamic metaplasia producing line.The device can load small ruler in large quantity The very little magnetizing coil that is sent into later to magnetic work aligning to magnetic workpiece, loaded carries out operation of magnetizing, and reaching both can guarantee The performance that magnetizes of final products, and magnet workpiece can be significantly reduced in magnetization process because knocking side and reversed caused by mutual collision Etc. the appearance of bad problem.

The utility model can realize the operation of permutation twice to magnetic workpiece, carry out in vibration feeding disc whole for the first time Column carry out rotation in arranging-in-row device 2 to magnetic workpiece later and drive push top push-in to magnetize by cylinder after converting angle In track, to avoid generating material the problems such as knocking damage, anti-material.It is pushed into magnetizing coil to magnetic workpiece, by power supply device 4 Electric discharge carries out primary saturation to material by magnetizing coil and magnetizes.

By said structure design, the utility model can in high volume carry out small size on spontaneous magnetization process for producing line and wait for The magnetization treatment of magnetic workpiece.Importantly, the utility model carried out in vibration feeding disc and arranging-in-row device 2 it is whole twice Column operation, avoids mutually colliding between workpiece, colliding between workpiece in magnetic history is reduced, so as to substantially drop The fraction defective of finished workpart apparent size after the completion of low magnetization.Due to that can also avoid magnetizing to magnetic workpiece arranged regular Occur the problem of the pole reversal in journey.

In an optimal enforcement mode of the utility model, arranging-in-row device includes permutation workbench, is worked in permutation Second array rail is set on platform, and in being provided with crosswise pushing device 11 on permutation workbench, crosswise pushing device 11 is for pushing away Start building part along the second array rail be moved to position adjustment component.It is set between the second array rail and magnetizing coil component Position adjustment component includes the steering driving means 10 close to the setting of magnetizing coil component.

Driving means 10 is turned to for realizing the steering of workpiece, turning to driving means 10 includes to turn to track and setting It in turning to the steering assembly on track, turns to track and is connected with the second array rail, turn to track and be connected with magnetizing coil track.

Specifically, steering assembly includes that the first steering guide pad 12, second turns to guide pad 13, bottom plate 9 and turns to Cylinder 14 turns to cylinder 14 and is set to the side (turning to the left side of track in Fig. 2) for turning to the lower section of track, and first turns to guiding The top surface of block 12 is higher than the top surface of the second array rail, first turn between guide pad and the second array rail there are interval shape At the steering track with steering gap, turns to and be provided with bottom plate 9 below track.Second, which turns to guide pad setting, is turning to rail The side left side of track (in such as Fig. 2 turn to) between separate magnetizing coil group below road and it is located on bottom plate 9, magnetizing coil rail Road is set in the same horizontal plane with the second steering guide pad 13 and is oppositely arranged with the second steering guide pad 13.When to Magnetic workpiece is moved under the action of permutation cylinder along the second array rail when contacting with the first steering guide pad 12, will receive the The blocking of one steering guide pad 12 rotates and is detached from from the second array rail, fall between steering under the effect of gravity In gap, falling along track is turned to, whereabouts stops falling after touching bottom plate 9 after magnetic workpiece, it vertically stands on bottom plate 9, At this time to the state of magnetic workpiece 8 by the horizontality (placement of the workpiece conveyed in the second array rail and the first array rail State is horizontal or lying status) it is adjusted to vertical state, it then turns to cylinder 14 and pushes second to turn to the movement of guide pad 13, Workpiece is pushed in magnetizing coil component in the moving process of second steering guide pad 13.In practice, for optimization design, to Magnetic workpiece the enterprising row buffering of arranging-in-row device 2 stack, according to the length of magnetizing coil and to the thickness gauge of magnetic workpiece 8 It is very little, it determines the stacking quantity to magnetic workpiece 8, after magnetic workpiece 8 runs up to certain amount, is conveyed to cylinder 14 is turned to One signal that magnetizes, then will integrally push to inside magnetizing coil and magnetize to magnetic workpiece.The utility model it is worked Journey is as follows：When carrying out magnetization treatment, it will be loaded into the hopper of vibration feeding disc to magnetic workpiece 8；It is then turned on system, is vibrated Feed table treats magnetic workpiece by vibration and provides power, enters in arranging-in-row device 2 to magnetic workpiece 8；To magnetic workpiece 8 After permutation, to magnetic workpiece 8 by magnetizing coil, at this moment power supply device 4 starts interval electric discharge, by magnetizing coil to workpiece After magnetic, to magnetic workpiece by material-pulling device 5 by magnetic to magnetic workpiece push-in pulp-collecting box 6 in.

In said structure design, vacuum can also be used using mechanical feeding for the mode of material grasping and blanking The modes such as absorption carry out feeding.The process that magnetizes, principle of the utility model are constant, and main purpose is to realize to magnetic workpiece Automatic magnetizing, for substituting manual operation.

The above is only the preferred embodiments of the utility model, are not intended to limit the utility model, for the skill of this field For art personnel, various modifications and changes may be made to the present invention.Within the spirit and principle of the utility model, made Any modification, equivalent substitution, improvement and etc., should be included within the scope of protection of this utility model.

Claims (9)

1. a kind of sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system, for realizing filling automatically for sintered Nd-Fe-B permanent magnetic material Magnetic, which is characterized in that be disposed with by production technology sequence：

Feed device (1), the feed device include vibration feeding disc, and the bottom of the vibration feeding disc is provided with first Electromagnetic oscillation device, in being provided with the first array rail in the vibration feeding disc；

Arranging-in-row device (2), the arranging-in-row device include the second array rail and position adjustment component, second array rail Can be docked with first array rail, position adjustment component is set to the end of second array rail, for pair Workpiece carries out position adjustment；

Magnetizing coil component (3), the magnetizing coil component include magnetizing coil and are set in the magnetizing coil Magnetizing coil track is connected with power supply device (4) with the magnetizing coil, the magnetizing coil track and the position adjustment group Part connection；

Material-pulling device (5), the material-pulling device are set to the tail end of the magnetizing coil track；

Pulp-collecting box (6), the pulp-collecting box are connect with the magnetizing coil track.

2. sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system according to claim 1, which is characterized in that

It further include having transition conveying assembly (7), the transition conveying assembly includes linear transition track and for driving The second electromagnetic oscillation device of linear transition track vibration is stated, second electromagnetic oscillation device is set to the straight transitions rail The bottom in road；

One end of the linear transition track is connect with first array rail, the other end of the linear transition track and institute State the connection of the second array rail.

3. sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system according to claim 1, which is characterized in that

First array rail is spiral track.

4. sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system according to claim 1, which is characterized in that

The power supply device includes magnetize power supply and controller, and the controller and the power supply control of magnetizing connect, institute State magnetize power supply and magnetizing coil electrical connection.

5. sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system according to claim 1, which is characterized in that

The arranging-in-row device includes permutation workbench, in second array rail is arranged on the permutation workbench, in institute It states and is provided on permutation workbench crosswise pushing device (11), the crosswise pushing device is for pushing workpiece whole along described second Column track is moved to the position adjustment component；

The position adjustment component includes the steering driving means (10) close to magnetizing coil component setting；

The driving means that turns to includes the steering assembly for turning to track and being set on the steering track, the steering Track is connected with second array rail, and the steering track is connected with the magnetizing coil track.

6. sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system according to claim 5, which is characterized in that

The steering assembly includes the first steering guide pad (12), the second steering guide pad (13), bottom plate (9) and turns to gas Cylinder (14), the cylinder that turns to are set to the downside for turning to track, and the described first top surface for turning to guide pad is higher than described The top surface of second array rail, it is described first steering guide pad and second array rail between there are interval formed have The steering track of steering gap, the bottom plate is provided with below the steering track, and the second steering guide pad is set It sets the side between the lower section for turning to track and far from the magnetizing coil group and is located on the bottom plate, the line that magnetizes Circle track and the second steering guide pad, the bottom plate are set in the same horizontal plane and turn to described second and be oriented to Block is oppositely arranged.

7. sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system according to claim 6, which is characterized in that described second is whole The top surface of one end that column track turns to guide pad close to described first is cambered surface.

8. sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system according to claim 6, which is characterized in that the steering gas Cylinder is set to the lower section for turning to track and is located at the left side for turning to track.

9. sintered Nd-Fe-B permanent magnetic material automatic magnetism-charging system according to claim 6, which is characterized in that the steering rail The width in road is less than the length and width to magnetic workpiece (8).