CN212570580U - Magnetic connector with enhanced magnetism - Google Patents

Abstract

The utility model discloses a magnetic connector with magnetic enhancement, which comprises a magnetic conduction base, a middle support seat, an arc-shaped connecting seat and a side abutting seat, wherein the middle support seat is positioned on the upper end surface of the base; halbach array magnet, including the magnetic pole erect put magnet and the horizontal magnet of magnetic pole, a pair of magnetic pole horizontal magnet is located the magnetic pole and erects the relative both sides of putting magnet, and the S utmost point butt of magnet is put to the magnetic pole, and the S utmost point of a pair of magnetic pole horizontal magnet is all butt on side butt seat, and the two all not with arc connecting seat looks butt, the utility model discloses the magnet bottom contactless magnetic conduction base of both sides, three magnet homopolarity ends are through magnetic conduction base interconnect, strengthen concentrating the main magnet of positive center with the magnetic energy of both sides magnet, exert the maximize with the main magnet magnetic energy of positive center, have excellent magnetism reinforcing effect.

Description

Magnetic connector with enhanced magnetism

Technical Field

The utility model relates to a magnetic circuit connector technical field especially relates to a magnetic circuit connector with magnetism reinforcing.

Background

With the continuous development of economy and the continuous progress of society, various material consumer goods are provided for the life of people, and electronic products are one of the material consumer goods. Cell-phone, panel computer among the electronic product, dress the wrist-watch, dress bracelet, speaker etc. all belong to electronic product, wherein can be more use the magnetic connector for provide magnetic force adsorption.

The conventional magnetic connection realization form comprises conventional magnet adsorption, Halbach array magnet adsorption or Halbach array magnet and magnetic conduction base adsorption, wherein the conventional magnet is adsorbed by simple magnetic flux, the magnetic attraction is weaker, the conventional magnet is gradually eliminated for direct use, the magnetic attraction is further increased on the basis of the Halbach array magnet along with the miniaturization and light weight of various electronic devices, and the problem to be solved is divination by means of the milfoil by fully and reasonably utilizing the limited space.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a magnetic connector with magnetism reinforcing, the magnet bottom of both sides is contactless to the magnetic conduction base, and three magnet homopolarity ends are through magnetic conduction base interconnect, strengthen concentrating the magnetic energy of both sides magnet to the main magnet of positive center, exert the maximize with the main magnet magnetic energy of positive center, have excellent magnetism reinforcing effect.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a magnetic connector with magnetic enhancement, comprising:

the magnetic conduction base comprises a base, a middle supporting seat, arc-shaped connecting seats and side abutting seats, wherein the middle supporting seat is positioned on the upper end face of the base, a pair of the arc-shaped connecting seats are positioned on two opposite sides of the base, and the side abutting seats are positioned on the upper end face of the arc-shaped connecting seats;

the Halbach array magnet is installed on the magnetic conduction base and comprises a magnetic pole vertical magnet and a magnetic pole transverse magnet, the magnetic pole transverse magnet is located on two opposite sides of the magnetic pole vertical magnet, one pole of the magnetic pole vertical magnet is abutted to the middle support seat, one end of the magnetic pole transverse magnet, which is abutted to the same polarity of the middle support seat, is abutted to the side abutting seat, and the two ends of the magnetic pole transverse magnet are not abutted to the arc-shaped connection seat.

As a further optimization, the arc-shaped connecting seat is of a quarter-ring structure.

As a further optimization, the magnetic connector further comprises an additional structure, wherein the additional structure comprises a pair of magnetic pole transverse magnets, a pair of arc-shaped connecting seats and a pair of side abutting seats, the pair of arc-shaped connecting seats are located on two opposite sides of the base, the pair of side abutting seats are respectively located on the upper end faces of the pair of arc-shaped connecting seats, the pair of magnetic pole transverse magnets are located on two opposite sides of the magnetic pole vertical magnets, and the S poles of the two magnetic pole transverse magnets are abutted to the side abutting seats.

As a further optimization, the magnetic conduction base is made of iron, cobalt and vanadium.

As a further optimization, the magnetic conduction base is of an integrally formed structure.

As a further optimization, the magnetic pole vertical magnets and the magnetic pole transverse magnets have the same cube structure.

As a further optimization, the height of the side abutting seat is equal to the height of the magnetic pole transverse magnet.

As a further optimization, the side lengths of the magnetic pole vertical magnets and the magnetic pole transverse magnets are both 4 mm.

Compared with the prior art, the utility model discloses following beneficial effect has:

the bottom of the magnets on the two sides is not contacted with the magnetic conduction base, the same-polarity ends of the three magnets are connected with each other through the magnetic conduction base, the magnetic transmission path takes the arc shape close to a perfect circle as the best, the magnetic energy of the magnets on the two sides is strengthened and concentrated to the main magnet in the center, and the magnetic energy of the main magnet in the center is exerted to the maximum.

Drawings

Fig. 1 is a structural diagram of an embodiment of the present invention.

Fig. 2 is a magnetic pole distribution diagram of the halbach array magnet of the present invention.

Fig. 3 is a schematic diagram of an application of an embodiment of the present invention.

Fig. 4 is a block diagram of another embodiment of the present invention.

Fig. 5 is a structural diagram of a magnetic base according to another embodiment of the present invention.

Fig. 6 is a schematic diagram of an application of a conventional magnetic connector.

In the figure, 1. halbach array magnet; 2. a magnetic conductive base; 11. the magnetic pole is provided with a magnet vertically; 12. a magnet with a transverse magnetic pole; 20. a void; 21. a base; 22. a middle support seat; 23. an arc-shaped connecting seat; side abutment seats; 3. a conventional base; 100. and (5) magnetically attracting the object.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

Example 1

As shown in fig. 1-2, a magnetic connector with magnetic enhancement includes:

the magnetic conduction base 2 comprises a base 21, a middle supporting seat 22, arc-shaped connecting seats 23 and side abutting seats 24, wherein the middle supporting seat 22 is positioned on the upper end face of the base 21, the pair of arc-shaped connecting seats 23 are positioned on two opposite sides of the base 21, and the side abutting seats 24 are positioned on the upper end face of the arc-shaped connecting seats 23; halbach array magnet 1, install on magnetic conduction base 2, it includes that the magnetic pole erects magnet 11 and the horizontal magnet 12 of magnetic pole, the horizontal magnet 12 of a pair of magnetic pole is located the magnetic pole and erects the relative both sides of putting magnet 11, the S utmost point butt of putting magnet 11 is put to the magnetic pole on middle part supporting seat 22, the equal butt of the S utmost point of the horizontal magnet 12 of a pair of magnetic pole is on side butt seat 24, and the two all not with arc connecting seat 23 looks butt, regional clearance 20 that forms in arc connecting seat top, arc connecting seat 23 is quarter ring structure, magnetic transmission route is with the arc that is close the perfect circle as the best.

In this embodiment, the S pole is connected to the magnetic conductive base, and if 3N poles are connected to the magnetic conductive base, the magnetic pole has the same magnetic enhancement effect, which is also within the protection scope of this patent.

The magnetic conduction base 2 is made of iron, cobalt and vanadium, and the iron, cobalt and vanadium is selected as the magnetic conduction base, so that the magnetic conduction base has excellent magnetic conduction performance and higher magnetic induction intensity.

The magnetic conduction base 2 is an integrated structure, and can be formed by assembling.

The magnetic pole vertical magnets 11 and the magnetic pole horizontal magnets 12 have the same cubic structure.

The height of the side abutment 24 is equal to the height of the pole cross magnet 12.

The side lengths of the magnetic pole vertical magnet 11 and the magnetic pole transverse magnet 12 are both 4mm, and the miniature magnetic pole vertical magnet can be applied to various types of products such as a loudspeaker through miniaturization design.

Example 2

As shown in fig. 1 to 5, compared to embodiment 1, the magnetic connector of this embodiment further includes an additional structure, where the additional structure includes a pair of magnetic pole transverse magnets 12, a pair of arc-shaped connecting seats 23 and a pair of side abutting seats 24, the pair of arc-shaped connecting seats 23 are located at two opposite sides of the base 21, the pair of side abutting seats 24 are respectively located at upper end surfaces of the pair of arc-shaped connecting seats 23, the pair of magnetic pole transverse magnets 12 are located at two opposite sides of the magnetic pole vertical magnet 11, and the S poles of both of them abut against the side abutting seats 24; on embodiment 1's basis, through increasing additional mechanism, make the magnetic conduction base form the structure similar to lotus flower form, halbach array magnet forms the crisscross structure, and the magnet is put to same magnetic pole vertical share, has better spatial structure after the installation shaping, has more excellent magnetic conductivity and magnetic attraction.

The utility model discloses can be with the base shaping on the magnetic conduction base for having the positive multilateral body on even number limit, the magnet is put to the magnetic pole erects and has the same structure rather than, erects magnet and the horizontal magnet of magnetic pole and installs on the magnetic conduction base with the magnetic pole through embodiment 1 and embodiment 2's mounting means.

Application examples

Selecting a conventional magnet (comparative example 1), a Halbach array magnet (comparative example 2), the Halbach array magnet (comparative example 3, shown in figure 6) added with a conventional base 3, and the embodiment 1 of the utility model, making the magnet act with the object 100 to be magnetically attracted (iron-cobalt-vanadium material), and performing data test on the magnetic attraction performance of the comparative examples 1-3 and the embodiment 1, wherein the test results are shown in the following table,

TABLE comparative examples 1-3, example 1 magnetic attraction results

Wherein X is a magnetic suction interval; comparative example 1 was 12mm by 4 mm; comparative example 2 the length, width, height, 4mm of the individual magnets; comparative example 3 the length, width, height, 4mm of the individual magnets; the length, width, height, 4mm of the magnet in example 1.

When the distance between the magnet assembly and the target object is 0mm, the magnetic attraction force of the comparative example 2 is about 1.75 times that of the comparative example 1, and the magnetic attraction force of the example 1 is enhanced to 1.24 times than that of the comparative example 2; as the test distance X increased, the magnetic attractive force gradually decreased, but the magnetic attractive force of example 1 was still larger than those of comparative examples 2 and 3, and thus the magnetic connector had excellent magnetic enhancement.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (8)

1. A magnetic connector with magnetic enhancement, comprising:

the magnetic conduction base comprises a base, a middle supporting seat, arc-shaped connecting seats and side abutting seats, wherein the middle supporting seat is positioned on the upper end face of the base, a pair of the arc-shaped connecting seats are positioned on two opposite sides of the base, and the side abutting seats are positioned on the upper end face of the arc-shaped connecting seats;

the Halbach array magnet is installed on the magnetic conduction base and comprises a magnetic pole vertical magnet and a magnetic pole transverse magnet, the magnetic pole transverse magnet is located on two opposite sides of the magnetic pole vertical magnet, one pole of the magnetic pole vertical magnet is abutted to the middle support seat, one end of the magnetic pole transverse magnet, which is abutted to the same polarity of the middle support seat, is abutted to the side abutting seat, and the two ends of the magnetic pole transverse magnet are not abutted to the arc-shaped connection seat.

2. The magnetic connector with magnetic enhancement of claim 1, wherein the arc-shaped connecting seat is a quarter-ring structure.

3. The magnetic connector with magnetic enhancement according to claim 1, further comprising an additional structure, wherein the additional structure comprises a pair of horizontal magnets, a pair of arc-shaped connecting seats and a pair of side abutting seats, the pair of arc-shaped connecting seats are located on two opposite sides of the base, the pair of side abutting seats are respectively located on the upper end surfaces of the pair of arc-shaped connecting seats, the pair of horizontal magnets are located on two opposite sides of the vertical magnets, and the S poles of the horizontal magnets abut against the side abutting seats.

4. The magnetic connector with magnetic enhancement according to claim 1, wherein the magnetically conductive base is made of fe-co-v.

5. The magnetic connector with magnetic enhancement of claim 1, wherein the magnetically permeable base is a one-piece structure.

6. The magnetic connector with magnetic enhancement according to claim 1, wherein the pole standing magnets and the pole transverse magnets have the same cube structure.

7. The magnetic connector with magnetic enhancement of claim 1, wherein the height of the side abutment seat is equal to the height of the pole cross magnet.

8. The magnetic connector with magnetic enhancement according to claim 1, wherein the side length of each of the pole standing magnets and the pole transverse magnets is 4 mm.

Images