CN203935623U - Automatic rotation magnetic connection component - Google Patents
Automatic rotation magnetic connection component Download PDFInfo
- Publication number
- CN203935623U CN203935623U CN201420353894.8U CN201420353894U CN203935623U CN 203935623 U CN203935623 U CN 203935623U CN 201420353894 U CN201420353894 U CN 201420353894U CN 203935623 U CN203935623 U CN 203935623U
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- magnet
- magnetic
- adhesively fixed
- real axis
- hollow cylinder
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Abstract
The utility model relates to automatic rotation magnetic connection component, it comprises magnet and a hollow cylinder of two cross section semicirculars in shape, in described hollow cylinder, between diapire and inner roof wall, be provided with a real axis, the mutual magnetic of straight portion of the magnet of two cross section semicirculars in shape is also adhesively fixed, two magnetic the magnet cross section being adhesively fixed are circle, the center of magnetic two magnet that are adhesively fixed is provided with vertical through hole, magnetic two magnet that are adhesively fixed are socketed on the real axis in hollow cylinder by vertical through hole, magnetic two magnet that are adhesively fixed can be take real axis as axle rotation, magnetic two magnet that are adhesively fixed are placed in hollow cylinder inside, and magnetic two magnet that are adhesively fixed can move up and down along real axis direction in hollow cylinder, the utility model, with a kind of magnet shape of novelty, can be axle rotation or slide up and down along real axis by real axis magnet under the effect of power, the coupling assembling more automation that becomes.
Description
Technical field
The utility model relates to automatic rotation magnetic connection component.
Background technology
At present, on market, there are a lot of magnet toys, as olive magnet, magnet building blocks etc., some of them are manufactured by magnet purely, some are that magnet is embedded in other material, and the integral body that makes to form has not only had the characteristic of repulsion and the attraction of magnet, also because of the difference of the shape of combined material, color etc., have had other physical property; But by inlaying, two blocks of magnet are separately fixed on the two ends of same material, the two poles of the earth of magnet are also just determined, can only, with the attraction of opposed polarity on unique mode and another material, can not be reached the requirement of some application scenario.
Utility model content
Technical problem to be solved in the utility model is to provide automatic rotation magnetic connection component, it can be under the effect of power, the contact point of the round and smooth convex surface of magnet and the inside face of cylindrical shell of take is that fulcrum rotates, thereby reach two opposite polarity states of magnet, original same pole is repelled each other become that there is a natural attraction between the sexes; This structure can play good effect in some application.
For solving the problems of the technologies described above, the utility model adopts following technical proposals: automatic rotation magnetic connection component, it comprises magnet and a hollow cylinder of two cross section semicirculars in shape, in described hollow cylinder, between diapire and inner roof wall, be provided with a real axis, the mutual magnetic of straight portion of the magnet of two cross section semicirculars in shape is also adhesively fixed, the magnet that is adhesively fixed so forming just has two, north and south polarity at an end face, two magnetic the magnet cross section being adhesively fixed are circle, the center of magnetic two magnet that are adhesively fixed is provided with vertical through hole, magnetic two magnet that are adhesively fixed are socketed on the real axis in hollow cylinder by vertical through hole, magnetic two magnet that are adhesively fixed can be take real axis as axle rotation, this structure can make two magnet that are adhesively fixed take real axis as axle center rotation, magnetic between magnetic connection component is that the real axis of take respectively separately by two magnet that are adhesively fixed is inhaled mutually as the axle center very little angle of rotation realizes heteropolarity between two, the magnet torque that each is adhesively fixed strengthens, it need to apply the revolving force of horizontal direction, and do not had prior art need to overcome the gravity that overturns and apply, magnetic two magnet that are adhesively fixed are placed in hollow cylinder inside, and magnetic two magnet that are adhesively fixed can move up and down along real axis direction in hollow cylinder, the magnet being adhesively fixed both can have been take real axis as axle center rotation, also can move up and down along real axis direction, realize any two magnetic connection components without runner assembly direction magnetic mutually just, avoided due to two like magnetic poles repel each other, need to rotating in prior art the troublesome operation that one of them magnetic connection component direction could realize magnetic, prior art magnet is individually fixed in assembly both ends, the magnetic force of magnetic connection component middle part sidewall is very weak, can not realize mutual magnetic between sidewall, and the utility model magnetic connection component is because magnet can move up and down along real axis in hollow cylinder inside, the magnetic that can realize any position of magnetic connection component sidewall, has strengthened practicality.
Described two magnetic the cross section that is adhesively fixed are the internal diameter that the diameter of circular magnet is less than hollow cylinder, to reduce mutual frictional force, make the magnet being adhesively fixed rotate smooth and easy.
The diameter of the vertical through hole of described two magnetic the magnetic blow out centre that is adhesively fixed is greater than the diameter of real axis, and to reduce mutual frictional force, it is smooth and easy that the magnet that makes to be adhesively fixed be take the rotation that real axis is axle, and smooth and easy along real axial slip.
Described magnetic two magnet that are adhesively fixed are shaped as disc, and disc magnetic blow out centre is provided with vertical through hole.
Described magnetic two magnet that are adhesively fixed are shaped as stone shape, and stone shape magnetic blow out centre is provided with vertical through hole.
Described magnetic two magnet that are adhesively fixed are shaped as cylindrical, and cylinder-shaped magnet center is provided with vertical through hole.
Described hollow cylinder with and interior real axis material be nonmetallic materials, avoid magnet to magnetize it, affect two rotations that are adhesively fixed magnet.
Described hollow cylinder with and interior real axis material be plastics.
The beneficial effects of the utility model are as follows:
The utility model, with a kind of magnet shape of novelty, can be axle rotation or slide up and down along real axis by real axis magnet under the effect of power, adjusts the position of magnet in hollow cylinder, the coupling assembling more automation that becomes; Real axis in cylinder makes magnet around fixed-axis rotation, is conducive to maintain the stability of magnet.
Accompanying drawing explanation
Fig. 1 illustrates the utility model embodiment mono-structural representation;
Fig. 2 illustrates the utility model embodiment one or two magnet assembly starting stage structural representation;
Fig. 3 illustrates the mutual magnetic status architecture of the utility model embodiment one or two magnet assembly schematic diagram;
Fig. 4 illustrates the utility model embodiment bis-structural representations;
Fig. 5 illustrates bis-liang of magnet assembly starting stage structural representations of the utility model embodiment;
Fig. 6 illustrates the bis-liang of mutual magnetic status architecture of magnet assembly schematic diagrames of the utility model embodiment;
Fig. 7 illustrates the utility model embodiment tri-structural representations;
Fig. 8 illustrates tri-liang of magnet assembly starting stage structural representations of the utility model embodiment;
Fig. 9 illustrates the tri-liang of mutual magnetic status architecture of magnet assembly schematic diagrames of the utility model embodiment.
The specific embodiment
Embodiment 1
Shown in Fig. 1-Fig. 3, automatic rotation magnetic connection component, it comprises magnet 1 and a hollow cylinder 2 of two cross section semicirculars in shape, between the interior diapire of described hollow cylinder 2 and inner roof wall, be provided with a real axis 21, the mutual magnetic of straight portion of the magnet 1 of two cross section semicirculars in shape is also adhesively fixed, two magnetic magnet 1 cross section being adhesively fixed are circle, the center of magnetic two magnet 1 that are adhesively fixed is provided with vertical through hole 11, magnetic two magnet 1 that are adhesively fixed are socketed on the real axis 21 in hollow cylinder 2 by vertical through hole 11, magnetic two magnet 1 that are adhesively fixed can be take real axis 21 as axle rotation, magnetic two magnet 1 that are adhesively fixed are placed in hollow cylinder 2 inside, and magnetic two magnet 1 that are adhesively fixed can move up and down along real axis 21 directions in hollow cylinder 2.
Described two magnetic the cross section that is adhesively fixed are the internal diameter that the diameter of circular magnet 1 is less than hollow cylinder 2.
The diameter of the vertical through hole 11 at described two magnetic magnet 1 center that is adhesively fixed is greater than the diameter of real axis 21.
Described magnetic two magnet 1 that are adhesively fixed are shaped as disc, and disc magnet 1 center is provided with vertical through hole 11.
Described hollow cylinder 2 with and interior real axis 21 materials are plastics.
Operation principle
Starting stage: two automatic rotation magnetic connection components that are arranged above and below mutually away from, its be socketed on the magnetic on real axis in hollow cylinder and the disc magnet state that is adhesively fixed random;
Second stage: when two automatic rotation magnetic connection components that are arranged above and below are mutually close, if the magnetic in two assemblies the disc magnet polarity correspondence being adhesively fixed are identical, disc magnet can be under the effect of repulsive force mutually away from, and under the effect of magnetic repulsive force around real axis rotation separately;
Phase III: upper and lower two magnetic the disc magnet rotation being adhesively fixed finally reach the state that heteropole is relative (both the N utmost point of magnetic above the disc magnet that is adhesively fixed was facing to the S utmost point of magnetic below the disc magnet that is adhesively fixed, meanwhile, the S utmost point of magnetic above the disc magnet that is adhesively fixed is facing to the N utmost point of magnetic below the disc magnet that is adhesively fixed);
Fourth stage: under the effect of magnetic attraction, below that magnetic the disc magnet that is adhesively fixed along moving on its real axis, make the mutually upper and lower magnetic of two automatic rotation magnetic connection components, reached the object connecting.
Embodiment 2
Shown in Fig. 4-Fig. 6, automatic rotation magnetic connection component, it comprises magnet 1 and a hollow cylinder 2 of two cross section semicirculars in shape, between the interior diapire of described hollow cylinder 2 and inner roof wall, be provided with a real axis 21, the mutual magnetic of straight portion of the magnet 1 of two cross section semicirculars in shape is also adhesively fixed, two magnetic magnet 1 cross section being adhesively fixed are circle, the center of magnetic two magnet 1 that are adhesively fixed is provided with vertical through hole 11, magnetic two magnet 1 that are adhesively fixed are socketed on the real axis 21 in hollow cylinder 2 by vertical through hole 11, magnetic two magnet 1 that are adhesively fixed can be take real axis 21 as axle rotation, magnetic two magnet 1 that are adhesively fixed are placed in hollow cylinder 2 inside, and magnetic two magnet 1 that are adhesively fixed can move up and down along real axis 21 directions in hollow cylinder 2.
Described two magnetic the cross section that is adhesively fixed are the internal diameter that the diameter of circular magnet 1 is less than hollow cylinder 2.
The diameter of the vertical through hole 11 at described two magnetic magnet 1 center that is adhesively fixed is greater than the diameter of real axis 21.
Described magnetic two magnet 1 that are adhesively fixed are shaped as stone shape, and stone shape magnet 1 center is provided with vertical through hole 11.
Described hollow cylinder 2 with and interior real axis 21 materials are plastics.
Operation principle
Starting stage: two automatic rotation magnetic connection components that are arranged above and below mutually away from, its be socketed on the magnetic on real axis in hollow cylinder and the stone shape magnet state that is adhesively fixed random;
Second stage: when two automatic rotation magnetic connection components that are arranged above and below are mutually close, if the magnetic in two assemblies the stone shape magnet polarity correspondence being adhesively fixed are identical, stone shape magnet can be under the effect of repulsive force mutually away from, and under the effect of magnetic repulsive force around real axis rotation separately;
Phase III: upper and lower two magnetic the stone shape magnet rotation being adhesively fixed finally reach the state that heteropole is relative (both the N utmost point of magnetic above the stone shape magnet that is adhesively fixed was facing to the S utmost point of magnetic below the stone shape magnet that is adhesively fixed, meanwhile, the S utmost point of magnetic above the stone shape magnet that is adhesively fixed is facing to the N utmost point of magnetic below the stone shape magnet that is adhesively fixed);
Fourth stage: under the effect of magnetic attraction, below that magnetic the stone shape magnet that is adhesively fixed along moving on its real axis, make the mutually upper and lower magnetic of two automatic rotation magnetic connection components, reached the object connecting.
Embodiment 3
Shown in Fig. 7-Fig. 9, automatic rotation magnetic connection component, it comprises magnet 1 and a hollow cylinder 2 of two cross section semicirculars in shape, between the interior diapire of described hollow cylinder 2 and inner roof wall, be provided with a real axis 21, the mutual magnetic of straight portion of the magnet 1 of two cross section semicirculars in shape is also adhesively fixed, two magnetic magnet 1 cross section being adhesively fixed are circle, the center of magnetic two magnet 1 that are adhesively fixed is provided with vertical through hole 11, magnetic two magnet 1 that are adhesively fixed are socketed on the real axis 21 in hollow cylinder 2 by vertical through hole 11, magnetic two magnet 1 that are adhesively fixed can be take real axis 21 as axle rotation, magnetic two magnet 1 that are adhesively fixed are placed in hollow cylinder 2 inside, and magnetic two magnet 1 that are adhesively fixed can move up and down along real axis 21 directions in hollow cylinder 2.
Described two magnetic the cross section that is adhesively fixed are the internal diameter that the diameter of circular magnet 1 is less than hollow cylinder 2.
The diameter of the vertical through hole 11 at described two magnetic magnet 1 center that is adhesively fixed is greater than the diameter of real axis 21.
Described magnetic two magnet 1 that are adhesively fixed are shaped as cylindrical, and cylinder-shaped magnet 1 center is provided with vertical through hole 11.
Described hollow cylinder 2 with and interior real axis 21 materials are plastics.
Operation principle
Starting stage: the automatic rotation magnetic connection component of two contour arrangements in left and right mutually away from, its be socketed on the magnetic on real axis in hollow cylinder and the cylinder-shaped magnet state that is adhesively fixed random;
Second stage: when the automatic rotation magnetic connection component of two contour arrangements in left and right mutually near time, if the magnetic in two adjacent assemblies the cylinder-shaped magnet polarity correspondence being adhesively fixed are identical, cylinder-shaped magnet can be under the effect of repulsive force around real axis rotation separately;
Phase III: the rotation of two magnetic of the contour arrangement in left and right the cylinder-shaped magnet being adhesively fixed finally reaches the state (both the N utmost point of the magnetic in left side the cylinder-shaped magnet that is adhesively fixed had been facing to the S utmost point of the magnetic on right side the cylinder-shaped magnet that is adhesively fixed, or the S utmost point of the magnetic in left side the cylinder-shaped magnet that is adhesively fixed is facing to the N utmost point of the magnetic on right side the cylinder-shaped magnet that is adhesively fixed) of heteropole relative proximity;
Fourth stage: under the effect of magnetic attraction, that magnetic of left side the cylinder-shaped magnet being adhesively fixed and that magnetic of right side the mutually close translation of the cylinder-shaped magnet being adhesively fixed, finally make two the mutual left and right of automatic rotation magnetic connection component sidewall magnetic, and mutually two cylinder-shaped magnets of magnetic can the synchronous upper and lower displacement along real axis separately, has reached the object connecting.
As mentioned above; the utility model automatic rotation magnetic connection component; described embodiment and figure; it is the good implementation result of the utility model; be not to be confined to the utility model; approximate, the identical person such as structure every and of the present utility model, feature, all should belong to the scope that the utility model is protected.
Claims (8)
1. automatic rotation magnetic connection component, it is characterized in that: it comprises magnet (1) and a hollow cylinder (2) of two cross section semicirculars in shape, between the interior diapire of described hollow cylinder (2) and inner roof wall, be provided with a real axis (21), the mutual magnetic of straight portion of the magnet of two cross section semicirculars in shape (1) is also adhesively fixed, two magnetic magnet (1) cross section being adhesively fixed are circle, the center of magnetic two magnet (1) that are adhesively fixed is provided with vertical through hole (11), magnetic two magnet (1) that are adhesively fixed are socketed on the real axis (21) in hollow cylinder (2) by vertical through hole (11), magnetic two magnet (1) that are adhesively fixed can be take real axis (21) as axle rotation, magnetic two magnet (1) that are adhesively fixed are placed in hollow cylinder (2) inside, and magnetic two magnet (1) that are adhesively fixed can move up and down along real axis (21) direction in hollow cylinder (2).
2. automatic rotation magnetic connection component according to claim 1, is characterized in that: described two magnetic the cross section that is adhesively fixed are the internal diameter that the diameter of circular magnet (1) is less than hollow cylinder (2).
3. automatic rotation magnetic connection component according to claim 1, is characterized in that: the diameter of the vertical through hole (11) at described two magnetic magnet (1) center that is adhesively fixed is greater than the diameter of real axis (21).
4. automatic rotation magnetic connection component according to claim 1, is characterized in that: described magnetic two magnet (1) that are adhesively fixed are shaped as disc, and disc magnet (1) center is provided with vertical through hole (11).
5. automatic rotation magnetic connection component according to claim 1, is characterized in that: described magnetic two magnet (1) that are adhesively fixed are shaped as stone shape, and stone shape magnet (1) center is provided with vertical through hole (11).
6. automatic rotation magnetic connection component according to claim 1, is characterized in that: described magnetic two magnet (1) that are adhesively fixed are shaped as cylindrical, and cylinder-shaped magnet (1) center is provided with vertical through hole (11).
7. automatic rotation magnetic connection component according to claim 1, is characterized in that: described hollow cylinder (2) with and interior real axis (21) material be nonmetallic materials.
8. automatic rotation magnetic connection component according to claim 7, is characterized in that: described hollow cylinder (2) with and interior real axis (21) material be plastics.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420353894.8U CN203935623U (en) | 2014-01-22 | 2014-06-27 | Automatic rotation magnetic connection component |
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420037959.8 | 2014-01-22 | ||
| CN201420037959 | 2014-01-22 | ||
| CN201420353894.8U CN203935623U (en) | 2014-01-22 | 2014-06-27 | Automatic rotation magnetic connection component |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203935623U true CN203935623U (en) | 2014-11-12 |
Family
ID=51854973
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201420353894.8U Active CN203935623U (en) | 2014-01-22 | 2014-06-27 | Automatic rotation magnetic connection component |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN203935623U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105582668A (en) * | 2016-03-08 | 2016-05-18 | 梁伟伦 | Rotating magnetic splicing block |
| CN112368058A (en) * | 2018-06-11 | 2021-02-12 | 克劳迪奥·维森特里 | Magnetic module with magnetically activatable and non-activatable anchoring surfaces |
-
2014
- 2014-06-27 CN CN201420353894.8U patent/CN203935623U/en active Active
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105582668A (en) * | 2016-03-08 | 2016-05-18 | 梁伟伦 | Rotating magnetic splicing block |
| CN112368058A (en) * | 2018-06-11 | 2021-02-12 | 克劳迪奥·维森特里 | Magnetic module with magnetically activatable and non-activatable anchoring surfaces |
| CN112368058B (en) * | 2018-06-11 | 2022-12-13 | 克劳迪奥·维森特里 | Magnetic module with magnetically activatable and non-activatable anchoring surfaces |
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| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant |