CN201089112Y - Magnetic disc of magnetic grinder - Google Patents

Abstract

The utility model relates to a magnetic disk of a magnetic grinding machine, which comprises a rotating disk and at least four permanent magnets; four containing areas with equal area can be defined on one surface of the turntable, and one end angle of each containing area is connected with the rotation center of the turntable; the permanent magnets are respectively embedded on the turntable, and each magnetic pole of the permanent magnets is respectively exposed on each accommodating area, the magnetic poles exposed in each two adjacent accommodating areas are opposite, and the magnetic poles exposed in the accommodating areas at the two opposite end positions are the same; the magnetic force line type generated by the permanent magnet when the rotary disc rotates is more perfect, so that the magnetic conduction medium guided by the magnetic force line can generate better grinding effect on the workpiece.

Description

The disk of Magnetic Force Mill

Technical field

The utility model relates to Magnetic Force Mill, the more detailed disk that is meant a kind of Magnetic Force Mill.

Background technology

General Magnetic Force Mill mainly is to utilize one driven and rotating disk and some permanet magnets that is arranged on this rotating disk of rotation by motor, making can be by being produced the magnetic field of a rotational alternating when dial rotation by these permanet magnets, with the magnetic conductive media needle of induction set in this rotating disk top, this magnetic conductive media can be rotatablely moved and change direction along with the magnetic line of force rotation change direction that is produced by stone magnetite rotation forever, so can make this magnetic conductive media can be in the high speed rotary course and workpiece collision, friction, by to reach grinding effect to workpiece.

But, permanet magnet is arranged at the direction of rotation that position on this rotating disk will influence the magnetic line of force, and the direction of rotation of the magnetic line of force then affects the direction of motion of magnetic conductive media, therefore the position that is arranged on the rotating disk of permanet magnet will directly influence the quality of magnetic conductive media to the workpiece grinding effect, and be the problem that the present industry institute utmost point need solve.

The utility model content

In view of this, main purpose of the present utility model is the disk that is to provide a kind of Magnetic Force Mill, is to produce preferable magnetic conduction motion path to magnetic conductive media, to promote the effect of grinding.

Edge this, the utility model is the disk that a kind of Magnetic Force Mill is provided, and includes a rotating disk and at least four permanet magnets; This rotating disk has the second surface that a first surface and is positioned at the opposing position of first surface, and this first surface is in order in the rotating shaft that is fixed on a motor; Can define the holding area that four areas equate on this second surface, and each end angle of these holding areas joins in the pivot place of rotating disk; These four permanet magnets are to be embedded in respectively on this rotating disk, and each magnetic pole of these permanet magnets is to be emerging in respectively on respectively this holding area of this second surface; The magnetic pole that is revealed in each two adjacent holding area is opposite, and the magnetic pole that is revealed in each position, angle, two opposite ends holding area is identical.

The beneficial effects of the utility model are that the disk of the Magnetic Force Mill that is provided can produce preferable magnetic conduction motion path to magnetic conductive media, to promote the effect of grinding.

Description of drawings

Fig. 1 is the structural representation that the utility model first preferred embodiment is installed in a Magnetic Force Mill;

Fig. 2 is the structural representation of preferred embodiment shown in Figure 1;

Fig. 3 is the magnetic line of force distribution schematic diagram of preferred embodiment shown in Figure 1;

Fig. 4 is the structural representation of the utility model second preferred embodiment;

Fig. 5 is the magnetic line of force distribution schematic diagram of preferred embodiment shown in Figure 4;

Fig. 6 is the structural representation of the utility model the 3rd preferred embodiment;

Fig. 7 is the magnetic line of force distribution schematic diagram of preferred embodiment shown in Figure 6;

Fig. 8 is the structural representation of the utility model the 4th preferred embodiment;

Fig. 9 is the magnetic line of force distribution schematic diagram of preferred embodiment shown in Figure 8;

Figure 10 is the structural representation of the utility model the 5th preferred embodiment;

Figure 11 is the magnetic line of force distribution schematic diagram of preferred embodiment shown in Figure 10;

Figure 12 is the structural representation of the utility model the 6th preferred embodiment;

Figure 13 is the structural representation of the utility model the 7th preferred embodiment.

[primary clustering symbol description]

" first preferred embodiment "

Housing 91 article putting grooves 911 magnetic conductive medias 92

Rotational alternating magnetic field generation device 93 grip slippers 931

Motor 932 rotating shafts 935 control panels 934

The disk 10 of Magnetic Force Mill

Rotating disk 11 first surfaces 111 second surfaces 112

Ccontaining group's 113 grooves 114 permanet magnets 12

The magnetic line of force 121

" second preferred embodiment "

The disk 20 of Magnetic Force Mill

Rotating disk 21 ccontaining group's 213 grooves 214

Permanet magnet 22 magnetic lines of force 221

" the 3rd preferred embodiment "

The disk 30 of Magnetic Force Mill

Rotating disk 31 ccontaining group's 313 grooves 314

Permanet magnet 32 magnetic lines of force 321

" the 4th preferred embodiment "

The disk 40 of Magnetic Force Mill

Rotating disk 41 ccontaining group's 413 grooves 414

Permanet magnet 42 magnetic lines of force 421

" the 5th preferred embodiment "

The disk 50 of Magnetic Force Mill

Rotating disk 51 ccontaining group's 513 grooves 514

Permanet magnet 52 magnetic lines of force 521

" the 6th preferred embodiment "

The disk 60 of Magnetic Force Mill

Rotating disk 61 ccontaining group's 613 grooves 614

Permanet magnet 62

" the 7th preferred embodiment "

Rotating disk 71 ccontaining group's 713 grooves 714

Permanet magnet 72

The specific embodiment

For further understanding and approval being arranged, enumerate following preferred embodiment now and cooperate graphic being described as follows feature of the present utility model and characteristics:

See also Fig. 1 to Fig. 3, it is the disk 10 of the utility model first a kind of Magnetic Force Mill that preferred embodiment provides, at first, because disk 10 of the present utility model is the one component of Magnetic Force Mill, therefore appearance is described slightly with regard to the main structure of Magnetic Force Mill earlier:

See also Fig. 1, Magnetic Force Mill includes a housing 91, some magnetic conductive medias 92 and a rotational alternating magnetic field generation device 93; Wherein this housing 91 is concaved with an article putting groove 911 toward in; These magnetic conductive medias 92 are most stainless steel needle-like bodies, are to be placed in the article putting groove 911 of this housing 91; This rotational alternating magnetic field generation device 93 has a grip slipper 931, a motor 932, this disk 10 and a control panel 934; This grip slipper 931 is to be fixed on the bottom surface of these housing 91 inside, this motor 932 is fixedly set in this grip slipper 931, and a rotating shaft 935 of this motor 932 is the tops that are piercing in this grip slipper 931, this disk 10 is connected the detailed construction of disk and holds the back introduction with the rotating shaft 935 of this motor 932, this control panel 934 is to be located on this housing 91 and to electrically connect with this motor 932, in order to control motor 932 rotating speeds, time, electric power starting is closed and motor with positive and negative rotates control.

The disk 10 of the utility model Magnetic Force Mill includes a rotating disk 11 and most permanet magnets 12;

This rotating disk 11 as shown in Figures 1 and 2, has the second surface 112 that a first surface 111 and is positioned at these first surface 111 opposing positions, and this first surface 111 is in order in the rotating shaft 935 that is fixedly connected on this motor 932; Can define the holding area that four areas equate on this second surface 112, and each end angle of these holding areas joins in the pivot place of this rotating disk 11, distinctly be formed with a ccontaining group 113 on these holding areas, respectively this ccontaining group 113 has two rounded grooves 114 respectively in present embodiment, and these grooves 114 among each ccontaining group 113 are along an arcuation setting that rotating curve is arranged.

These permanet magnets 12, its quantity and kenel are that the kenel that is same as permanet magnet in the present embodiment with groove 114 is cylindrical, be to be embedded in respectively in the groove 114 of this rotating disk 11, and each magnetic pole of these permanet magnets 12 is to be emerging in respectively on this second surface 112, and the magnetic pole that permanet magnet 12 appears among this each ccontaining group 113 in present embodiment is the S utmost point by the outside order of arranging of rotating disk 11 pivots in regular turn, the N utmost point or the N utmost point, the S utmost point, and the magnetic pole that is revealed in permanet magnet 12 in the holding area of putting at each two-phase ortho position is to be opposite, and it is identical to be revealed in the magnetic pole of permanet magnet 12 in the holding area of position, angle, two opposite ends.

By distribution by above-mentioned permanet magnet 12 positions, can make when rotating disk 11 is subjected to the driving of motor 932 and rotates, the magnetic line of force 121 types that can drive stone magnetite 12 rotations forever among each ccontaining group 113 and produce comparatively improve as shown in Figure 3, when beating, can carry out the better grinding effect to workpiece to promote magnetic conductive media 92 to follow the line style of the magnetic line of force.

Seeing also Fig. 4 and Fig. 5, is the disk 20 of the utility model second a kind of Magnetic Force Mill that preferred embodiment provides, its an identical rotating disk 21 and most permanet magnet 22 of including; The main difference of itself and first preferred embodiment is:

Distinctly be formed with a ccontaining group 213 on this each holding area that this rotating disk 21 is defined, respectively this ccontaining group 213 has four grooves 214 respectively in present embodiment, and these grooves 214 among each ccontaining group 213 are along an arcuation setting that rotating curve is arranged.

These permanent magnetic 22, its quantity is identical with groove 214 with kenel, be to be embedded in respectively in the groove 214 of this rotating disk 21, and the magnetic pole that permanet magnet 22 appears among this each ccontaining group 213 is the S utmost point, the S utmost point, the N utmost point, the S utmost point or the N utmost point, the N utmost point, the S utmost point, the N utmost point by the outside order of arranging of rotating disk 21 pivots in regular turn, and the magnetic pole that is revealed in permanet magnet 22 in the holding area of putting at each two-phase ortho position is to be opposite, and it is identical to be revealed in the magnetic pole of permanet magnet 22 in the holding area of position, angle, two opposite ends.

Though permanet magnet 22 quantity set in the present embodiment are different with first embodiment, but the magnetic line of force 221 types that rotating disk 21 is respectively produced during the magnetite of stone forever 22 rotations among this ccontaining group 213 comparatively improve as shown in Figure 5, magnetic conductive media is not shown in the figures to follow the line style of the magnetic line of force and when beating, can carry out the better grinding effect to workpiece to promote.

Seeing also Fig. 6 and Fig. 7, is the disk 30 of the utility model the 3rd a kind of Magnetic Force Mill that preferred embodiment provides, its an identical rotating disk 31 and most permanet magnet 32 of including; Wherein this rotating disk 31 formed one ccontaining group 313 and ccontaining group's 313 grooves that had 314 kenels on this each holding area that is defined are all identical with second embodiment, but the main difference of itself and second preferred embodiment is:

The magnetic pole that permanet magnet 32 is appeared among this each ccontaining group 313 is the N utmost point, the S utmost point, the N utmost point, the N utmost point or the S utmost point, the N utmost point, the S utmost point, the S utmost point by the outside order of arranging of rotating disk 31 pivots in regular turn.

Though the magnetic pole that set permanet magnet 32 is appeared in the present embodiment is different with second embodiment, all can reach stone magnetite 32 rotations forever among each ccontaining group 313 and the comparatively perfect effect as shown in Figure 7 of the magnetic line of force 321 types of generation.

Seeing also Fig. 8 and Fig. 9, is the disk 40 of the utility model the 4th a kind of Magnetic Force Mill that preferred embodiment provides, its an identical rotating disk 41 and most permanet magnet 42 of including; The main difference of itself and first preferred embodiment is:

This rotating disk 41 define on four holding areas a ccontaining group 413 who forms out of the ordinary, in present embodiment, respectively should ccontaining group 413 have three grooves 414 respectively, these grooves 414 in each ccontaining group 413 are to be setting that triangles is arranged.

These permanet magnets 42, its quantity is identical with groove 414 with kenel, be to be embedded in respectively on the groove 414 of this rotating disk 41, and the magnetic pole that permanet magnet 42 is appeared among the same ccontaining group 413 is all identical, and being revealed in each two-phase ortho position, to put magnetic pole in the holding area be to be opposite, and the magnetic pole that is revealed in the holding area of position, angle, two opposite ends is identical.

Though permanet magnet 22 kenels set in the present embodiment are different with first embodiment, all can reach the comparatively perfect identical effect as shown in Figure 9 of the magnetic line of force 421 types that drives stone magnetite 42 rotations forever among each ccontaining group 413 and produce.

Seeing also Figure 10 and Figure 11, is the disk 50 of the utility model the 5th a kind of Magnetic Force Mill that preferred embodiment provides, its an identical rotating disk 51 and most permanet magnet 52 of including; The main difference of itself and the 4th preferred embodiment is:

This rotating disk 51 define on four holding areas a ccontaining group 513 who forms out of the ordinary, in present embodiment, respectively should ccontaining group 513 have six grooves 514 respectively, these grooves 514 in each ccontaining group 513 are to be setting that triangles is arranged.

These permanet magnets 52, its quantity is identical with groove 514 with kenel, be to be embedded in respectively in the groove 514 of this rotating disk 51, and the magnetic pole that permanet magnet 52 is appeared among the same ccontaining group 513 is all identical, and being revealed in each two-phase ortho position, to put magnetic pole in the holding area be to be opposite, and the magnetic pole that is revealed in the holding area of position, angle, two opposite ends is identical.

Though permanet magnet 52 quantity set in the present embodiment are different with the 4th embodiment, all can reach the comparatively perfect identical effect as shown in figure 11 of the magnetic line of force 521 that drives stone magnetite 52 rotations forever among each ccontaining group 513 and produce.

Seeing also Figure 12, is the disk 60 of the utility model the 6th a kind of Magnetic Force Mill that preferred embodiment provides, its an identical rotating disk 61 and most permanet magnet 62 of including; The main difference of itself and first preferred embodiment is:

This rotating disk 61 define on four holding areas a ccontaining group 613 who forms out of the ordinary, in present embodiment, respectively should only have a groove 614 respectively for ccontaining group 613, this each groove 614 is rectangular.

These permanet magnets 62, its quantity is identical with groove 614 with kenel, be to be embedded in respectively in the groove 614 of this rotating disk 61, and being revealed in each two-phase ortho position, to put magnetic pole in the holding area be to be opposite, and the magnetic pole that is revealed in the holding area of position, angle, two opposite ends is identical.

Though permanet magnet 62 quantity set in the present embodiment are different with first embodiment with kenel, all can reach identical effect.

Seeing also Figure 13, is the disk 70 of the utility model the 7th a kind of Magnetic Force Mill that preferred embodiment provides, its an identical rotating disk 71 and most permanet magnet 72 of including; The main difference of itself and first preferred embodiment is:

This rotating disk 71 define on four holding areas a ccontaining group 713 who forms out of the ordinary, in present embodiment, respectively should only have a groove 714 respectively for ccontaining group 713, this each groove 714 is to be long rectangle.

These permanet magnets 72, its quantity is identical with groove 714 with kenel, be to be embedded in respectively in the groove 714 of this rotating disk 71, and being revealed in each two-phase ortho position, to put magnetic pole in the holding area be to be opposite, and the magnetic pole that is revealed in the holding area of position, angle, two opposite ends is identical.

Though permanet magnet 72 quantity set in the present embodiment are different with first embodiment with kenel, all can reach identical effect.

Claims (9)

1. the disk of a Magnetic Force Mill is characterized in that including:

One rotating disk has the second surface that a first surface and is positioned at the opposing position of first surface, and this first surface is in order in the rotating shaft that is fixed on a motor; Define the holding area that four areas equate on this second surface, and each end angle of these holding areas joins in the pivot place of rotating disk;

At least four permanet magnets are to be embedded in respectively on this rotating disk, and each magnetic pole of these permanet magnets is to be emerging in respectively on respectively this holding area of this second surface; The magnetic pole that is revealed in each two adjacent holding area is opposite, and the magnetic pole that is revealed in each position, angle, two opposite ends holding area is identical.

2. according to the disk of the described Magnetic Force Mill of claim 1, it is characterized in that, distinctly be formed with a ccontaining group on this each holding area, this each ccontaining group has at least one groove, the quantity of this permanet magnet is identical with the quantity of these grooves, and can be embedded in respectively in this each ccontaining group's the groove.

3. according to the disk of the described Magnetic Force Mill of claim 2, it is characterized in that, include eight permanet magnets; This each ccontaining group has two grooves, and these grooves among each ccontaining group are along an arcuation setting that rotating curve is arranged.

4. according to the disk of the described Magnetic Force Mill of claim 3, it is characterized in that the magnetic pole that permanet magnet appeared among this each ccontaining group is the S utmost point, the N utmost point or the N utmost point, the S utmost point by the outside order of arranging of rotating disk pivot in regular turn.

5. according to the disk of the described Magnetic Force Mill of claim 2, it is characterized in that, is to include 16 permanet magnets; This each ccontaining group has four grooves respectively, and these grooves among each ccontaining group are along an arcuation setting that rotating curve is arranged.

6. according to the disk of the described Magnetic Force Mill of claim 5, it is characterized in that the magnetic pole that permanet magnet appeared among this each ccontaining group is the S utmost point, the S utmost point, the N utmost point, the S utmost point or the N utmost point, the N utmost point, the S utmost point, the N utmost point or the N utmost point, the S utmost point, the N utmost point, the N utmost point or the S utmost point, the N utmost point, the S utmost point, the S utmost point by the outside order of arranging of rotating disk pivot in regular turn.

7. according to the disk of the described Magnetic Force Mill of claim 2, it is characterized in that this each ccontaining group has at least three grooves respectively, these grooves among each ccontaining group are to be triangles to arrange.

8. according to the disk of the described Magnetic Force Mill of claim 7, it is characterized in that the magnetic pole that permanet magnet appeared among the described same ccontaining group is all identical.

9. according to the disk of the described Magnetic Force Mill of claim 1, it is characterized in that, this permanet magnet be cylindrical, rectangle or long rectangle one of them.

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