TWM492954U - Magnetic energy driving structure - Google Patents

Description

Magnetic energy driven structure

The present invention relates to a structure driven by magnetic energy, in particular, a magnet of a movable magnet device is a flat shape, the round flat magnet is fixed to a turntable, and a rotating shaft is fixed at the center of the turntable; The magnets of the same polarity are appropriately arranged in a polygonal groove, wherein the polygon is a regular octagonal arrangement of the outer circumference of the magnet of the movable magnet device, and the polygonal groove is formed into an annular shape, which is a rotating shaft of the movable magnet device. For its center of rotation, the polygonal magnet of the polygonal groove is fixed to the edge of a fixed disk, and the center of the fixed disk is sleeved on a rotating shaft, but does not engage as a feature.

According to the principle of a magnetic energy driving method, a driving force is provided by its magnetic energy without external conditions. The principle of the magnetic energy driving method is to fix a flat circular shaped magnet, which is called a fixed magnet, and the other is flat. The round-shaped magnet is a movable type, which is called a movable magnet, and the two are corresponding to the same polarity (set to N). The magnetic pole faces of the two are arranged at a difference of 90 degrees, and the movable magnet can be along the magnetic pole surface of the fixed magnet. Parallel displacement, when the movable magnet passes through the magnetic pole face of the fixed magnet, it has parallel displacement power, which is changed with the magnetic field strength of the fixed magnet and the movable magnet. The magnet of the conventional fixed magnet device is of a plurality of same polarity The magnets are suitably arranged in a U-shaped groove, and the U-shaped groove has only three sets of fixed magnets corresponding to one movable magnet.

According to the structural features of the conventional magnetic energy drive, it is obvious that the driving force can be enhanced. In view of this, the creator creates a magnetic energy driven structure to increase the driving force; the magnetic energy driving structure includes a fixed magnet device and an activity. a magnet device, wherein the magnet of the movable magnet device is a flat shape, the round magnet is fixed to a turntable, and a rotating shaft is fixed at a center of the rotating shaft; the magnet of the fixed magnet device is a flat shape, and the flat shape is flat The magnets are appropriately arranged in a polygonal groove by five magnets of the same polarity, wherein the polygon is a regular octagonal arrangement of the outer circumference of the magnet of the movable magnet device, and the magnet of the polygonal groove is further formed into a ring shape, the ring The rotating shaft of the movable magnet device is a center of rotation thereof. The fixed magnet of the polygonal groove is fixed on the edge of a fixed disk, and the center of the fixed disk is sleeved on a rotating shaft, but the joint is not engaged. By.

1‧‧‧ fixed body

10‧‧‧Support board

14‧‧‧ bearing

2‧‧‧Fixed magnet

2-1‧‧‧Fixed magnet

2-2‧‧‧Fixed magnet

2-3‧‧‧Fixed magnet

24‧‧‧ Fixed disk

25‧‧‧Connecting plate

3‧‧‧ movable magnet

30‧‧‧ Direction

32‧‧‧ Connecting rod

33‧‧‧ disc

34‧‧‧Axis

Figure 1 is a schematic diagram of the conventional structure

Fig. 2 is a schematic view showing the action of a movable magnet and a fixed magnet.

Figure 3 is a schematic diagram of the structure of the creation.

Figure 4 is a schematic diagram of the structure of the application example of the creation.

For the implementation of a magnetic energy driven structure, please refer to FIG. 1 to FIG. 4, as shown in the structural diagram of FIG. 1, wherein the movable magnet 3 is fixed by a connecting rod 32, and the connecting rod 32 is fixed at one. A disk 33, the center of which is provided with a rotating shaft 34, which is combined with a set of bearings 14, which are fixed by a set of support plates 10 which are fixed to a fixed body 1. 3 sets of fixed magnets (2-1, 2-2, 2-3) are properly arranged into a U-shaped groove, as shown in Figure 2. As shown, the U-shaped groove is formed in an annular shape having the center of the rotating shaft 34 as the center of the ring. Because of the concentricity, the displacement of the movable magnet 3 can be in the form of a ring-shaped fixed magnet (2). Traveling in -1, 2-2, 2-3), the annular fixed magnets (2-1, 2-2, 2-3) are fixed on the edge of the fixed disk 24, the center of which is fixed The fixed magnet 24 is fixed to the rotating shaft 34, but is not engaged, and the fixed magnet 24 is fixed to the supporting plate 10 via a connecting plate 25, so that the movable magnet 3 is in the shape of a ring-shaped fixed magnet (2-1, 2-2, 2- 3) When the thrust is received inside (as indicated by the arrow in Fig. 2), the rotating shaft 34 is rotated, so that the rotating shaft 34 has a driving force for rotation.

As shown in Fig. 3, a movable magnet 3 and a fixed magnet 2 are combined, and the magnetic pole faces of the two are arranged at a difference of 90 degrees. A movable magnet 3 is a flat shape, and the outer octagon of the outer circle has 5 Five circular fixed magnets 2 are arranged side by side, and the five fixed magnets 2 are appropriately arranged in a polygonal shape with the same polarity, so that one movable magnet 3 is combined with five fixed magnets 2 to generate power.

As shown in Fig. 4, the polygons formed by the five fixed magnets 2 are appropriately arranged into a polygonal groove which is formed into an annular shape which is centered on the center of the rotating shaft 34 because of the coaxiality. Since the displacement of the movable magnet 3 can travel in the annular five sets of fixed magnets 2, the annular five sets of fixed magnets 2 are fixed on the edge of the fixed disk 24, and the center sleeve of the fixed disk 24 On the rotating shaft 34, but not engaged, the fixing plate 24 is fixed to a fixed body 1 by being connected to a supporting plate 10 via a connecting plate 25.

2‧‧‧Fixed magnet

24‧‧‧ Fixed disk

3‧‧‧ movable magnet

32‧‧‧ Connecting rod

33‧‧‧ disc

Claims (2)

A magnetic energy driven structure is composed of a fixed magnet and a movable magnet, and the magnetic pole faces of the two are arranged at a difference of 90 degrees, including: a movable magnet is a flat shape, and the outer circular octagon has 5 Five circular fixed magnets are arranged side by side, and the five fixed magnets are appropriately arranged in a polygonal shape with the same polarity, so that one movable magnet is combined with five fixed magnets to generate power. According to the magnetic energy-driven structure of the first aspect of the patent application, the polygons of the five fixed magnets are appropriately arranged into a polygonal groove, and the polygonal groove is formed into an annular shape, and the annular shape is a circle of the center of the rotating shaft. In the center of the ring, the annular fixed magnet is fixed on the edge of a fixed disk. The center of the fixed disk is sleeved on a rotating shaft, but is not engaged. The fixed disk is fixed to the supporting plate through a connecting plate. A fixed body.