FR2726133A3 - Device for transforming circular motion into unidirectional linear motion - Google Patents

Abstract

The motion transforming device includes an energy source which accelerates silicon steel magnets (4,401) when they are on the opposite arc (I) to the electromagnet (5) and an energy source operates the electromagnet when the magnets pass (II) the electromagnet. The acceleration is stopped when the magnets leave the opposite arc and they continue by their own inertia until they re-enter the arc. The electromagnetic force between the magnets and electromagnet slows the magnets and the force on the electromagnet causes the frame (1) to be displaced in the one direction along the line of rotation. Several sets of magnets may be mounted on common axles with corresponding electromagnets on parallel frames.

Description

DEVICE FOR TRANSFORMING A CIRCULAR MOTION INTO A
UNIDIRECTIONAL LINEAR MOTION
The present invention relates, in general, to the transformation of a circular movement into a unidirectional linear movement to obtain a unidirectional displacement force, and, more particularly, it relates to a device for transforming a circular movement into a unidirectional movement in order to to move a body unidirectionally by the interaction between magnetic masses and an electromagnet, by the actuation of the electromagnet at the time of the passage of the vertex of each of the circles on which two magnetic masses rotate in opposite one in relation to the other.

 The force to move a body is usually obtained by energy applied to the body, and now most sources of energy are provided by artificial means, such as a combustion system or a thermal energy system. using solar heat. As a result, the force to move the body or the speed of the moving body depends on the amount of energy artificially supplied, and a large amount of energy must be consumed continuously to move a body.

 In addition, the movement of a body by jet engine or propeller accelerator requires too much fuel consumption and poses a problem in that its power is markedly low with an increase in the speed of the body in movement. Therefore, the above-mentioned artificial means for moving a body pose a problem of limitations in training.

 The present invention has been accomplished to overcome the problems described above which arise in the prior art; in accordance with an embodiment of the present invention, the magnetic masses mounted on the chassis can be rotated on a circle by being accelerated within a zone of constant rotation where a force of rotation towards the direction occurs displacement on the circle, and by a force of inertia with suppression of the acceleration in the zone on the circle after passage of the zone of acceleration force, and suppression of the centrifugal force of the magnetic masses by actuation of the electromagnet when the vertex of the inertial force zone passes, and moves the frame due to the attraction between the magnetic masses and the electromagnet.

 In other words, the device according to the invention for transforming a circular movement into a unidirectional linear movement, for providing the repulsive force of a rotating shaft and the electromagnetic resistance of the rotor and stator, consists of rotating shafts intended to receive a mounted current supply with constant spacing on a chassis, rotating magnetic masses which provide repulsive, accelerating and inertial interaction, fixed to one end of rotating rods connected to said shafts, and an electromagnet placed between the inertial vertices of said magnetic masses to move said chassis unidirectionally by interaction between said electromagnet and said magnetic masses which are driven in rotation on a circle with inertial force and acceleration.

Thus, the device of the present invention is characterized in that it comprises
- a first system consisting of a mounted rotating shaft
rotating on a frame and carrying a rod which is
perpendicular to the axis of rotation and carries a mass
magnetic at its free end
- a second system identical to the first, consisting of a
rotating shaft, a rod and a magnetic mass, said
rotating shaft being placed with spacing from
to the tree of the first system, so that the two
circles that magnetic masses can describe when
the shafts are driven in rotation, do not cut;
- an electromagnet placed in the center of the line which joins
the two trees between the two circles mentioned above of ;;
- a source of energy to turn the trees,
so that the magnetic masses describe
opposite direction circles and pass simultaneously opposite
of said electromagnet (position (II)) and opposite to said
electromagnet (position (I))
- a source of energy to accelerate said masses
magnetic when the latter pass said
position (I)
- a source of energy to activate said electromagnet
when the magnetic masses pass said
position (II) the acceleration of said magnetic masses after having passed position (I) being stopped when the latter pass the intermediate position between position (I) and position (II), said magnetic masses passing said position (II) by the inertial force, the electromagnetic force of said electromagnet reducing the acceleration of said magnetic masses when the latter pass said position (II), and the displacement force produced between said electromagnet and said magnetic masses causing the chassis to move unidirectionally , perpendicular to the line joining the two shafts, in the direction of rotation.

 The magnetic masses can be made of silicon steel, or of any material which carries a permanent magnet.

 The present invention also relates to an assembly for transforming a circular movement into a unidirectional linear movement, characterized in that it comprises at least two devices as defined above, the chassis of said devices being mutually parallel, said rotary shafts of said first system constituting a common rotating shaft and said rotating shafts of said second system constituting another common rotating shaft, and said rods being arranged with an angular offset on each rotating shaft.

 According to a particular embodiment, said angular offset is 45, when the devices are four in number.

These objectives, characteristics and aspects of the present invention, as well as others, will appear more clearly on reading the following description of embodiments, with reference to the appended drawing. In this drawing - Figure 1 is a horizontal sectional view of the device
to transform a circular movement into a movement
unidirectional linear; - Figure 2 is a view intended to illustrate the device
to transform a circular movement into a movement
unidirectional linear - Figure 3 is a cross-sectional view along AA of
Figure 2, illustrating how the electromagnet
is mounted on the chassis; and - Figure 4 shows how several magnetic masses
are arranged around the same rotating shaft.

 If we refer to Figures 1 and 2, we can see that there are shown rotating shafts 2, 201 placed with constant spacing on a frame 1; each of these rotating shafts 2, 201 is connected to a rod respectively 3, 301 rotating with it, which carries a magnetic mass respectively 4, 401 at its end, and an electromagnet 5 is placed between the two circles on which the masses 4, 401 rotate in opposite directions, being centered on their shafts 2, 201 respectively.

 As shown in Figure 1, the rotating shafts 2, 201, each connected by a rod 3, 301 rotating with it, to a magnetic mass respectively 4, 401, are rotated by receiving an electrical supply, and the magnetic masses 4, 401 are accelerated by receiving a continuous electrical supply at the instant of the passage from position (I) on the semicircle, and the acceleration stops when the accelerated magnetic masses 4, 401 arrive at a perpendicular position on the circle, and the resulting repulsive force pushes the rotating shafts 2, 201 upwards when we look at the Figure, and the accelerated magnetic masses 4, 401, without being yet accelerated, pass the position (II) on the circle by the force of inertia.

At the moment when the two magnetic masses pass the position (II) on the circle, the electromagnet 5 placed between two magnetic masses has an electromagnetic force by receiving an electrical supply, and the electromagnetic force of the electromagnet 5 reduced the acceleration of the magnetic masses 4, 401, and the magnetic masses 4, 401 at their initial speed return to their initial position on the circle, and the displacement force produced between the electromagnet 5 and the magnetic masses 4, 401 causes chassis 1 to move upwards unidirectionally on the
Figure 2.

 As shown in FIG. 4, several magnetic masses each with different phase angles on the circle can be arranged around the same rotating shaft, and actuated like the embodiment mentioned above in order to unidirectionally move the chassis 1 continuously.

In this embodiment, four devices such as those described with reference to Figures 1 and 2 are one above the other, the frames 1 being parallel to each other, and the rotating shafts 2 of each device constituting a common rotating shaft, and the rotating shafts 201 constituting another common rotating shaft. The magnetic masses 4, 401 of each device are each arranged with an angular offset of 45 relative to the upper or / and lower device. In this system, therefore, the circular movement of the magnetic masses 4, 401 is transformed into a unidirectional linear movement, according to which the chassis 1 advances continuously.

 The above description clearly shows that, in accordance with the present invention, a device is proposed which makes it possible to transform a circular movement into a unidirectional linear movement by interaction between an electromagnet and magnetic masses moving in rotation. on a circle without using a specific energy source or specific propelling force, in the resulting linear movement. The present device, which makes a body move unidirectionally, can replace conventional propulsion devices of the jet engine type, due to the increase in the movement force of the body with a marked reduction in energy consumption. Therefore, the present invention will be applied in various ways in many kinds of industries.

Claims (4)

 1 - Device for transforming a circular movement into a unidirectional linear movement, characterized in that it comprises  - a first system consisting of a rotating shaft (2)  rotatably mounted on a chassis (1) and carrying a  rod (3) which is perpendicular to the axis of rotation and  carries a magnetic mass (4) at its free end  - a second system, identical to the first, consisting of a  rotating shaft (201), a rod (301) and a mass  magnetic (401), said rotating shaft (201) being placed  with a spacing relative to said shaft (2) of such  so that the two circles that the magnetic masses (4  401) can describe when the trees (2; 201) are  rotated, do not cut  - an electromagnet (5) placed in the center of the line which  joins the two trees (2; 201) between the two circles  above  - a source of energy to rotate the trees (2  201), so that the magnetic masses (4; 401)  circle in opposite directions and pass  simultaneously opposite said electromagnet (5)  (position (II)) and opposite to said electromagnet (5)  (position (I))  - a source of energy to accelerate said masses  magnetic (4; 401) when the latter pass said  position (I)  - a source of energy to activate said electro  magnet (5) when the magnetic masses (4; 401)  pass said position (II) the acceleration of said magnetic masses after having passed position (I) being stopped when the latter pass the intermediate position between position (I) and position (II), said magnetic masses (4; 401) passing said position (II) by the inertial force, the electromagnetic force of said electromagnet (5) reducing the acceleration of said magnetic masses (4; 401) when the latter pass said position (II), and the displacement force produced between said electromagnet (5) and said magnetic masses (4; 401) moving said chassis unidirectionally, perpendicular to the line which joins the two shafts (2; 201) in the direction of rotation.  2 - Device according to claim 1, characterized in that said magnetic masses (4; 401) are made of silicon steel.  3 - assembly for transforming a circular movement into a unidirectional linear movement, characterized in that it comprises at least two devices as defined in claim 1 or 2, the frames (1) of said devices being parallel to each other, said shafts rotating (2) constituting another common rotating shaft and said rotating shafts (201) constituting a common rotating shaft, and said rods (3; 301) being arranged with an angular offset on each rotating shaft.  4 - assembly according to claim 3, characterized in that said angular offset is 45, when the devices are four in number.