CN104888475A - Magnetic suction mechanism unit self-adjustable in magnetic pole direction - Google Patents

Abstract

The invention belongs to the fields of magnetic suction fittings, magnetic suction ornaments, magnetic pole building blocks and the like and specifically provides a magnetic suction mechanism unit self-adjustable in magnetic pole direction. The magnetic suction mechanism unit self-adjustable in magnetic pole direction comprises a mechanism body; one or more side parts of the mechanism body are magnetic suction side parts; a magnetic unit is arranged next to the magnetic suction side parts is arranged in the mechanism body; the magnetic suction is mainly composed of a receiving cavity and a permanent magnet located in the receiving cavity; the permanent magnet is capable of freely rotating in the receiving cavity. The magnetic suction mechanism unit self-adjustable in magnetic pole direction has the beneficial effects of no need of identifying the magnetic pole, quick splicing, convenient demounting, easy application, wide splicing adjustable angle, high liberalization degree, simple and firm structure, high stability, small in permanent magnet rotating friction, flexible rotation and uneasy blockage in rotation; in addition, in the moving process of the magnetic suction unit, the permanent magnet is kept stable without shaking and noise.

Description

A kind of magnetic mechanism unit of pole orientation self-regulated

Technical field

The invention belongs to the fields such as magnetic accessory, Magnetic attraction decorative product, magnetic pole building blocks, be specifically related to a kind of magnetic mechanism unit of pole orientation self-regulated.

Background technology

In the fields such as magnetic accessory, Magnetic attraction decorative product, magnetic pole building blocks, the permanent magnet in traditional magnetic mechanism is all fixedly installed relative to this magnetic mechanism.In the mutual splicing of multiple magnetic mechanisms, need to firmly believe the magnetic pole adjusting each magnetic mechanism, splicing could be completed smoothly.And exist and in the splicing of fixing position, the shortcoming that liberalization degree is low can only be spliced.

Especially, magnetic mechanism is fresh few application in building blocks field, and it is thorough that most building blocks cannot realize unsettled heap.The building blocks of minority are that the complicated machinery structure arranged by its surface is mutually permanently connected, thorough to realize unsettled heap.The shortcomings such as the mode that this unsettled heap is thorough, exists and remove and install inconvenience, and the thorough liberalization degree of splicing heap is low.

Namely the Chinese utility model patent of notification number CN 203342387 U discloses " a kind of magnetic playset ", and in this magnetic playset, the multiple magnetic patch arranged in it are and are fixedly installed in building block.Thus existence needs to firmly believe the magnetic pole adjusting each magnetic patch, could complete splicing smoothly; Can only in the splicing of fixing position, the shortcomings such as splicing liberalization degree is low.

Namely the Chinese utility model patent of notification number CN 2902395 Y discloses one " magnet construction model building block "; concrete; in this magnet construction model building block: " be drilled with hole on the surface of building block; and be embedded in the magnetic material slightly larger than building blocks aperture in hole, the polarity of the magnetic material of adjacent bricks block is contrary." in this magnet construction model building block uses, need the magnetic pole of the magnetic material firmly believing adjacent bricks block equally, mutually could complete splicing smoothly; And in splicing, the necessary one_to_one corresponding of the magnetic material between two adjacent building blocks, splicing liberalization degree is lower.

Summary of the invention

In order to solve the problems referred to above that prior art exists, the invention provides a kind of magnetic mechanism unit of freely assembled pole orientation self-regulated.

The magnetic mechanism unit of pole orientation self-regulated of the present invention comprises mechanism body, a sidepiece of described mechanism body or multiple sidepiece are magnetic sidepiece, described mechanism body is provided with magnetic unit near the position of described magnetic sidepiece therein, described magnetic unit is primarily of container cavity and the permanent magnet composition being positioned at described container cavity, and described permanent magnet can freely rotate and move in described container cavity.

By technique scheme, magnetic mechanism unit of the present invention can realize pole orientation self-regulation.In concrete application, when mutually splicing between multiple magnetic mechanism unit, without the need to recognizing pole orientation, only need be close to each other by it, namely the permanent magnet of its inside realizes coupling mutually by rotation, and magnetic links together.It is more convenient to use.Simultaneously due to the arbitrariness of pole orientation adjustment, the magnetic sidepiece between multiple magnetic mechanism unit without the need to accurate alignment, can realize dislocation splicing when splicing, and splicing adjustable angle is wider, and splicing liberalization degree degree is higher.Meanwhile, easy accessibility, is easy to application.

Preferably, multiple separate magnetic unit is provided with near each magnetic sidepiece.In the present invention, multiple separate magnetic Unit Design, can increase the magnetic scope of magnetic sidepiece, and then increases magnetic stable connection.Meanwhile, multiple separate magnetic unit makes the adjustable angle of the splicing when splicing wider, and splicing liberalization degree is higher.

Preferably, described permanent magnet is spherical shape structure.Preferred further, described container cavity is cylindrical-shaped structure.Further preferred, the diameter of a circle of described cylindric container cavity cross section is slightly larger than the diameter of described spherical shape permanent magnet.The permanent magnet of the spherical shape in the present invention is in concrete splicing use procedure, and its spinning regulates more rapid, and not easily occurs stuck phenomenon in rotary course, and spin friction noise is less.Meanwhile, the design of cylindric container cavity and container cavity size can play the effect be convenient to permanent magnet self-regulation and rotated equally, can prevent stuck phenomenon further simultaneously, reduces spin friction noise.

Preferably, described magnetic sidepiece is positioned at the corner position of described mechanism body.Preferred further, the corner position of described mechanism body is pressed close in one end of described cylindric container cavity, and the other end stretches to described mechanism body inside center with the direction of the corner position away from described mechanism body.In the present invention, magnetic sidepiece is positioned at corner position, and the magnetic sidepiece of each magnetic mechanism unit all can be spliced with multiple magnetic mechanism unit magnetic of all sides.Such connecting method compares to the heart in the planes mutually and lays the connecting method of magnetic sidepiece, has both saved the consumption of magnetic unit, makes again splicing more firm.

Preferably, the chamber wall of described cylindric container cavity offers pore.Preferred further, described pore is multiple, is uniformly distributed in respectively on the chamber wall of container cavity.Fit too closely in situation at the chamber wall of permanent magnet and container cavity, suction can be produced and cause both to be difficult to separately, so the flexible rotating of restriction permanent magnet, impact splicing.The multiple pores set up in the present invention can keep the air pressure between permanent magnet and the chamber wall of container cavity and the external world consistent all the time, eliminate the suction that low pressure produces, and then ensure the flexible spinning of permanent magnet.

A more preferred case study on implementation: described mechanism body is square, eight drift angle places of described square mechanism body are respectively arranged with tubbiness holding mechanism, one end of described tubbiness holding mechanism is fixed on the drift angle place of described square mechanism body, the ladle body of described tubbiness holding mechanism extends to the center position of described square mechanism body, the inside of described barreled holding mechanism is container cavity, is provided with permanent magnet in the container cavity of described barreled holding mechanism inside.Further optimization, described permanent magnet is spherical shape structure, the diameter of a circle of the cross section of the container cavity of described barreled holding mechanism inside is slightly larger than the diameter of described spherical shape permanent magnet, and described barreled holding mechanism offers the through hole being communicated with its inner container cavity in its one end near the center of described square mechanism body.In this more preferred case study on implementation, when single magnetic mechanism unit is freely placed, permanent magnet in mechanism body eight drift angles can exist due to magnetic force, attracts each other, and eight permanent magnets are positioned at the one end near mechanism body center in each container cavity respectively the most at last.And due to the sustainable existence of magnetic force gravitation, when moving magnetic mechanism unit, each permanent magnet remains stable, can not shake generation noise.When single magnetic mechanism unit is placed without magnetic force interference, the setting of through hole makes permanent magnet locally can expose container cavity, and to strengthen the mutual gravitation of eight permanent magnets further, thus when preventing magnetic mechanism unit from moving, permanent magnet shakes generation noise.

In sum, the beneficial effect of magnetic mechanism unit of the present invention is: without the need to recognizing magnetic pole, can complete splicing fast, easy accessibility, is easy to application; Splicing angle adjustable is wide, and liberalization degree is high; Structure simple rigid, stability is strong; Permanent magnet spin friction noise is little, flexible rotation, rotates and not easily occurs stuck phenomenon; Magnetic mechanism unit moves in process, and permanent magnet keeps stable, and can not shake generation noise; Etc..

Accompanying drawing explanation

Fig. 1 is the configuration state schematic diagram that the magnetic mechanism unit of two pole orientation self-regulateds in the embodiment of the present invention 1 splices mutually;

Fig. 2 is the status architecture schematic diagram that the magnetic mechanism unit of four pole orientation self-regulateds in the embodiment of the present invention 2 splices mutually;

Fig. 3 is the structural representation of the magnetic mechanism unit of pole orientation self-regulated in the embodiment of the present invention 3;

Fig. 4 is the A-A direction view of the magnetic mechanism unit of the self-regulated of pole orientation shown in Fig. 3;

Fig. 5 is the perspective view (omitting permanent magnet four 3d in figure) of the magnetic mechanism unit of pole orientation self-regulated in the embodiment of the present invention 4;

Fig. 6 is the perspective view (omitting permanent magnet four 3d in figure) of another angle of the magnetic mechanism unit of the self-regulated of pole orientation shown in Fig. 5;

Fig. 7 be the magnetic mechanism unit static condition of the self-regulated of pole orientation shown in Fig. 5 main TV structure schematic diagram;

Fig. 8 is the splicing status architecture schematic diagram of the magnetic mechanism unit of pole orientation self-regulated shown in four Fig. 5;

Fig. 9 is the built on stilts splicing status architecture schematic diagram of the magnetic mechanism unit of pole orientation self-regulated shown in five Fig. 5.

In figure: 1a is mechanism body one, 2a be container cavity one, 3a is permanent magnet one; 1b is mechanism body two, 2b be container cavity two, 3b is permanent magnet two; 1c is mechanism body three, 2c be container cavity three, 3c is permanent magnet three; 1d is mechanism body four, 2d be container cavity four, 3d is permanent magnet four.In figure, black and white two panel region of each permanent magnet represents two magnetic poles respectively.

Detailed description of the invention

Below in conjunction with accompanying drawing and specific embodiment, technical conceive of the present invention is further explained.

It will be clear that in most cases, the realization of technical scheme of the present invention does not rely on the outer shape of mechanism body, and be relatively preferred special case in following each specific embodiment, it not should be understood to limitation of the present invention.

Embodiment 1: a kind of magnetic mechanism unit of pole orientation self-regulated

As shown in Figure 1, the magnetic mechanism unit of the present embodiment 1 comprises mechanism body one 1a of spherical shape, the side of mechanism body one 1a is magnetic sidepiece, the inner position near magnetic sidepiece of mechanism body one 1a is provided with spherical shape container cavity one 2a, and container cavity one 2a inside is provided with spherical shape permanent magnet one 3a.The sphere diameter of spherical shape container cavity one 2a is slightly larger than the sphere diameter of spherical shape permanent magnet one 3a.Optional scheme, the chamber wall of container cavity one 2a is also evenly provided with multiple pore.

Embodiment 2: a kind of magnetic mechanism unit of pole orientation self-regulated

As shown in Figure 2, the magnetic mechanism unit of the present embodiment 2 comprises mechanism body two 1b of square shape.Inner near its RC position, six faces at square mechanism body two 1b, be fixedly installed a magnetic unit respectively.Each magnetic unit includes hemispheric container cavity two 2b, and each container cavity two 2b inside is furnished with cube-shaped permanent magnet two 3b respectively.The length of side of permanent magnet two 3b is slightly less than the sphere diameter of container cavity two 2b.

Embodiment 3: a kind of magnetic mechanism unit of pole orientation self-regulated

As shown in Figure 3 and Figure 4, the magnetic mechanism unit of the present embodiment 3 comprises mechanism body three 1c of square shape.Six faces of mechanism body three 1c of square shape are magnetic sidepiece.Each magnetic sidepiece is all fixedly installed nine magnetic unit in the side that it is positioned at mechanism body three 1c inside.Nine magnetic unit square sides belonging to it are uniformly distributed.Each magnetic unit includes hemispheric container cavity three 2c, and each container cavity three 2c inside is furnished with cube-shaped permanent magnet three 3c respectively.The length of side of permanent magnet three 3c is slightly less than the sphere diameter of container cavity three 2c.

Embodiment 4: a kind of magnetic mechanism unit of pole orientation self-regulated

As shown in Fig. 5 ~ Fig. 9, the magnetic mechanism unit of the present embodiment 4 comprises mechanism body four 1d of square shape.Eight drift angles of mechanism body four 1d are magnetic sidepiece.Each magnetic sidepiece is provided with a magnetic unit.Each magnetic unit includes tubbiness holding mechanism and permanent magnet four 3d, and the cylindrical cavity of each tubbiness holding mechanism inside forms container cavity four 2d.One end of each tubbiness holding mechanism is fixed on the drift angle place of corresponding mechanism body four 1d, and the ladle body of each tubbiness holding mechanism extends to the direction, center of square mechanism body four 1d.Container cavity four 2d offers through hole in its position near square mechanism body four 1d center.Container cavity four 2d internal placement has permanent magnet four 3d of spherical shape.The sphere diameter of spherical shape permanent magnet four 3d is slightly less than the diameter of a circle of the cross section of container cavity four 2d.

As shown in Figure 7, when disturbing without external magnetic force, all permanent magnet four 3d, all due to its mutual magnetic force graviational interaction, are positioned in one end near mechanism body four 1d center in container cavity four 2d.

The present invention is not limited to above-mentioned preferred forms; anyone can draw other various forms of products under enlightenment of the present invention; no matter but any change is done in its shape or structure; every have identical with the application or akin technical scheme, all drops within protection scope of the present invention.

Claims (10)

1. the magnetic mechanism unit of a pole orientation self-regulated, comprise mechanism body, a sidepiece of described mechanism body or multiple sidepiece are magnetic sidepiece, described mechanism body is provided with magnetic unit near the position of described magnetic sidepiece therein, be characterised in that: described magnetic unit is primarily of container cavity and the permanent magnet composition being positioned at described container cavity, and described permanent magnet can freely rotate and move in described container cavity.

2. the magnetic mechanism unit of a kind of pole orientation self-regulated according to claim 1, is characterized in that: be provided with multiple separate magnetic unit near each magnetic sidepiece.

3. the magnetic mechanism unit of a kind of pole orientation self-regulated according to claim 1, is characterized in that: described permanent magnet is spherical shape structure.

4. the magnetic mechanism unit of a kind of pole orientation self-regulated according to claim 3, is characterized in that: described container cavity is cylindrical-shaped structure.

5. the magnetic mechanism unit of a kind of pole orientation self-regulated according to claim 4, is characterized in that: the diameter of a circle of described cylindric container cavity cross section is slightly larger than the diameter of described spherical shape permanent magnet.

6. the magnetic mechanism unit of a kind of pole orientation self-regulated according to the arbitrary claim of Claims 1 to 5, is characterized in that: described magnetic sidepiece is positioned at the corner position of described mechanism body.

7. the magnetic mechanism unit of a kind of pole orientation self-regulated according to the arbitrary claim of claim 3 ~ 5, it is characterized in that: described magnetic sidepiece is positioned at the corner position of described mechanism body, concrete: the corner position of described mechanism body is pressed close in one end of described cylindric container cavity, and the other end stretches to described mechanism body inside center with the direction of the corner position away from described mechanism body.

8. the magnetic mechanism unit of a kind of pole orientation self-regulated according to claim 7, is characterized in that: the chamber wall of described cylindric container cavity offers pore.

9. the magnetic mechanism unit of a kind of pole orientation self-regulated according to claim 1, it is characterized in that: described mechanism body is square, eight drift angle places of described square mechanism body are respectively arranged with tubbiness holding mechanism, one end of described tubbiness holding mechanism is fixed on the drift angle place of described square mechanism body, the ladle body of described tubbiness holding mechanism extends to the center position of described square mechanism body, the inside of described barreled holding mechanism is container cavity, is provided with permanent magnet in the container cavity of described barreled holding mechanism inside.

10. the magnetic mechanism unit of a kind of pole orientation self-regulated according to claim 9, it is characterized in that: described permanent magnet is spherical shape structure, the diameter of a circle of the cross section of the container cavity of described barreled holding mechanism inside is slightly larger than the diameter of described spherical shape permanent magnet, and described barreled holding mechanism offers the through hole being communicated with its inner container cavity in its one end near the center of described square mechanism body.