DE19705565A1 - Permanent magnet machine with magnetic screening for powering generators, ships etc - Google Patents

Abstract

A magnet screening machine whose mode of operation is based on the properties of permanent magnets with screening and rejection has a housing and rotor manufactured from a material that does not attract magnets, like aluminium, and that radially and at regular distances from one another. On one side in the rotor and housing, a certain number of permanent magnets are arranged. Housing magnets are screened with screening sheet of soft steel with a certain shape and its weight, which are attracted by magnets built on the rotor axis in connection with screening device. There may be a certain number of housing magnets unscreened. If more housing magnets are unscreened then the magnets lose system force.

Description

The invention relates to a permanent magnet machine, its mode of operation by means of several permanent magnets Shielding would work when changing shields the magnets in the housing are located opposite another magnet in the rotor. For example with three magnets in the housing and two in the rotor, with Shielding the magnet in the housing, housing magnet are shielded with a shield sheet Mild steel with a certain thickness.

The object of the invention is versatile Meaning, and is a permanent magnet machine that has no Has harmful properties and by means of several Permanent magnets would work, they are used for Generation of energy for the generators, ships and. Ä.

To implement a magnet shielding machine of this type, in which the repulsive forces act between the magnet, is proposed according to the invention, that the stand, housing and rotor from one material how aluminum is made.

That is in the number of cases of three or more Permanent magnets are arranged at regular intervals, and with two or more permanent magnets in the rotor, in regular interval.

A rotation and generation of power from the Rotor axis, between which the rotor magnets reject away from the housing magnet, and so it comes to Rotor movement. That the rotor circle is free could move, the devices exist Shield blades rotate, move between the rotor and housing magnets around the rotor, on the rotor axis.

The mild steel shielding sheet, too slightly attracted to magnets in relation to the magnet when the shield sheet is between the magnets, the magnets should rather be mutually neutral, whatever the thickness of the Shielding sheet depends on this one must be accurate have certain thickness.

To flip the shield sheet, if have pushed mutually repellent magnets away, then they have at the same time about the rotor axis and Gear device that moved with its function Shielding sheet between the rotor and Housing magnets.  

With the movement of the shielding sheet hovers around the housing magnets, one should compensate balance, shielding sheet must be a precise one Have thickness, and so do the weights.

Further details and advantages of the invention result from the following description of the associated drawings, it shows

Fig. 1 position, magnet housing a, b, c, b magnet housing is shielded, x in the rotor magnet, stoßt away c of magnets, for 60 °,

Fig. 2 position, magnet housing 14, as the rotor magnet 13, moving with the shielding sheet 15

Fig. 3 position, magnet housing a, b, c, and rotor magnet x, y, which are run over 60 °, and shielding sheet 15, for 120 °,

Fig. 4 position, housing magnets a, b, c, and rotor magnets x, y, which are reversed for 60 °, and shielding blade is reversed for 120 °, in the opposite direction. Rotor magnet y, is shielded,

Fig. 5 position, magnets, a, b, c, and x rotor magnet, y, kreisum continue for 60 °, and also shielding sheet 15 moves in the opposite direction for 120 °, x rotor magnet is shielded,

Fig. 6 position, rotor rotates with magnets x, y, again for 60 °, and shielding blade for 120 °, in the opposite direction, as the arrows point. Rotor magnet y, shielded,

Fig. 7 housing magnets 14 and rotor magnets 13, and shielding sheet 15, and the blocks 16 and 17, with certain thickness and are made of soft steel,

FIG. 8 shows FIG. 7 in a different view, housing magnets a, and c, rotor magnet x, and also shielding sheet 15 ,

Fig. 9 housing magnets 14 , rotor magnets 13 , shielding sheet 15 , blockages 16 , and 17 , pivotable holder parts 18 , and 19 , which are made of a material such as aluminum, and still weight 20 , made of mild steel, ie which is attracted by magnets.

Fig. 10 is a ring 27, with gears 23 which are eingezahnt with pinion 26 which is fixed with shielding blade axis 21, the gears 23 are also eingezahnt with toothed wheel plate 24,

Fig. 11 tooth ring plate 24, with spring 25 and coupling part 28,

Fig. 12 View of the magnet shielding machine with housing magnets 14 , and shielding weights 20 , rotor axis 22 , with a device that rotates the shielding blades.

The principle of operation with shielding housing magnets 14 , in relation to the rotor magnets 13 , in operation, between them are the magnets 13 and 14 , (mutually in the system), with the same poles in the principle of rejection, housing and rotor magnets. And if the magnets 13 and 14 are between shielded, then the magnets 13 and 14 should float neutral to each other.

Shielding sheet 15 , with its thickness, and the forces of permanent magnets must be adjusted so that the shielding sheet 15 must be as thick depending on the force of the magnets when the shielding sheet 15 is between the magnets 13 and 14 , then the Magnets must not start to attract or repel, but float neutral.

Regulate the movement of the shielding blade without resistance, adjust, with weight 20 , its size.

Rotor with magnet 13 , pulls (rotates) shielding blade 15 , visible in the opposite direction from the rotor movement via gear device FIG. 10 and FIG. 12.

Shielding sheet 15 is set so that one of rotor magnets 13 , always under tension with housing magnets 14 , in principle of rejection.

A certain number of housing magnets may be used to be unshielded. If more housing magnets unshielded then the magnets lose system power.

Rotor with magnets 13 , such as shielding sheet 15 , must not be able to rotate as intended, and regulating.

If shield sheet 15 is very long, visible in Fig. 8, then gear device visible in Fig. 10, must be on both sides of the axle.

Shielding sheet 15 , can connect via the axis 22 , and coupling part 28 , to spring 25 , and thus the shielding device should clamp in the example, if rotor 10 ° moves up to moment, the shielding device will oscillate, then rotate and rotor follow.

The function with rotor rotation for 60 °, and Shielding blade for 120 °, rotation in the opposite direction.

Each of the next (following) rotor magnet 13 , which must pull and rotate, and with its half (center point), half (center point) of the housing magnet 14 , visible, Fig. 1 to Fig. 6, the repulsive forces act between the magnet and the rotor magnet 13 , reject the housing magnet 14 , and so the rotor moves, and pulls Magnetenabschir mung sheet 15 , as the arrows point.

The function, rotor magnet x, pushes itself away from the housing magnet c (visible in FIG. 1) and over the rotor axis 22 , rotates toothed ring plate 24 , then toothed ring plate 24 , rotates toothed wheels 23 in which toothed wheels 23 , toothed wheel 26 , and over Shielding blade axis 21 , shielding blade 15 , with its weight 20 , rotates in the opposite direction from the rotor and magnet 13 , as the arrows point (visible from FIG. 1 to FIG. 12).

Rotor with magnet 13 , rotates at the same time with shielding blade 15 , and weight 20 .

All from the description and the drawings apparent new features are essential to the invention, also insofar as they are not in the following claims have been claimed.

Claims (7)

1. Magnet shielding machine, its operation on the property of permanent magnets with shielding and rejection, characterized in that a housing and rotor made of a material that does not attract the magnet, such as aluminum, and the radial and at a regular distance from each other, on the one hand in the rotor and housing a certain number of permanent magnets are arranged, housing magnets are shielded with shielding sheet made of mild steel with certain shape and its weight, which are attracted by magnets installed on the rotor axis in connection with the shielding device. 2. Magnet shielding machine according to claim 1 characterized by, it may be a certain number Housing magnets should be unshielded if more Housing magnets are unshielded, then lose the magnets of system power.   3. Magnet shielding machine, according to claim 1, characterized in that the shield sheet Made of a material that is easy on magnets is tightened like mild steel with a certain one Thickness depending on magnetic force if Shielding sheet between the rotor magnets and Housing magnets, then the magnets may don't start getting dressed or repelling, but float neutral. 4. magnet shielding machine, according to claim 1 to 3, characterized by rotor magnets with rotor Rotate with shield sheet at the same time, though the rotor turns for 60 °, at the same time Shield blade makes a rotation of 120 °, but in the opposite direction, until the next housing magnet. 5. magnet shielding machine, according to claim 1 to 4, characterized by the movement of the Shield sheet that hovers between the housing magnets and rotor magnets, one should compensate, Balancing, shielding sheet must be accurate certain thickness, and so also shielding sheet weight, which can also be shaped differently, and itself Move the housing magnets on the outside behind the side can also with larger radius, with shielding sheet weight movement, rotation, balance, Balancing, with its size so that none There is resistance, without resistance with shielding sheet Floating between the rotor magnet and the housing magnet. 6. Magnet shielding machine according to claim 1 to 5. characterized by each the next (following) Rotor magnet that must pull and turn, and with its half, (center), must go through (Exceeded) half (center) of the Housing magnets at the moment in the housing magnet Is shielded, the repulsive forces act between the Magnets and the rotor magnets reject the Housing magnets and so the rotor and moves Pulls (turns) shielding sheet, in opposite direction, from the rotor rotation, as the arrows point. 7. magnet shielding machine according to claim 1 to 6, characterized by what radius size should the housing magnets are shielded, that depends from magnet size, and number of magnets in System, for example 180 °. The umbrella can too be a little bit bigger or smaller.