Magnetic therapeutic apparatus with two axes of rotation

FIELD: therapy.

SUBSTANCE: the apparatus has a magnetic body located in a freely moving member that itself is positioned inside the apparatus. The apparatus is actuated by an electric motor, which makes the freely moving member and the magnetic body rotate about the first axis of rotation. The magnetic body is rotated about the second axis of rotation by angular forces which act on it either mechanically or by means of a magnetic field. The mechanical angular force is transferred with the aid of a gear train or some other similar contact interaction with the rolling member. The magnetic angular force is transferred with the aid of fixed magnets, when the magnetic body passes by them at its rotation. Two rotary motions of the magnetic body occur at an angle to each other and result in variation in time both of the density of the magnetic flux and of the angle of flux turn.

EFFECT: enhanced quality of magnetic influence.

53 cl, 18 dwg

 

REFERENCES TO RELATED APPLICATIONS

This application is a partial continuation of application for U.S. patent No. 10/087135, filed February 28, 2002, which is incorporated into this description by reference.

The technical FIELD

The present invention generally relates to a device for creating a magnetic field, and more specifically to a device for creating a magnetic field, which provides a time varying the angle density of the magnetic flux, for therapeutic effects on humans or animals.

The LEVEL of TECHNOLOGY

There are various devices to create a time-varying magnetic fields to affect the human body. Usually there are two types of time-varying magnetic fields. In the first type of devices use alternating current field, which is generated when the electric current of any desired frequency. In accordance with Maxwell's equations simultaneously creates a magnetic field with the same frequency as the electric field. This type of time-varying magnetic fields are pulsed electromagnetic fields that are created when the flow through the current conductor in the form of individual pulses of electric charges that move in the same direction.

The second type of devices to generate a time varying magnetic what she uses physical movement to static magnetic fields in space. One way of achieving this is by a linear shift, and another conventional method involves rotation of the static magnetic field. The source of the static magnetic field is typically a permanent magnet, since the use of an electromagnet requires a significant expenditure of energy to create the current and subsequent dissipation of unwanted heat.

Therapeutic application of time-varying magnetic fields have passed clinical trials and was described in the literature. More popular publications, written for the General public include "Magnetic Therapy" ("Magnetic therapy") authors Dr. Ronald Lawrence and Dr. Paul Rosch, "The Pain Relief Breakthrough" ("Breakthrough pain") authors Dr. Julian Whitaker and Brenda Adderly and Magnetic Therapy in Eastern Europe" ("Magnetic therapy in Eastern Europe") authors Dr. Jiri Jerabek and Dr. William Pawluc. In these books there are numerous references to clinical studies that demonstrate the effectiveness of time-varying magnetic fields for the treatment of many acute and chronic conditions, including atherosclerosis, carpal tunnel syndrome, chronic bronchitis, postischemic injury, swelling, fractures, infection of wounds, transplantation of limbs, burns, scars, dystrophy yellow spots, etc. For most applications there are no significant negative p the adverse effects. In recent years, the General public and even the medical community is increasingly perceives magnetic therapy as an alternative treatment method, are worthy of consideration when the above conditions.

Devices in which to create a time-varying magnetic fields for therapeutic purposes, the use of permanent magnets, as described in U.S. patent No. 4727857, 5632720 and 6001055. All these devices operate by rotating permanent magnets around a fixed axis. The magnetic field generated by each of these devices is moved in space in the same direction. The change of the angle of rotation requires manual manipulation of the whole device, as the axis on which the rotating magnets, stationary. It was found that the angle at which the lines of magnetic flux pass through body tissue, can affect the degree of achievement of useful effect. Therefore, it is necessary to create such a portable device or a device that can be applied to body parts, clothing, etc. that creates a magnetic field that passes in multiple directions, thereby providing a more complete angular coverage of the body part to be processed of a moving magnetic field.

DISCLOSURE of INVENTIONS

The present invention provides for creating a magnetic field of changing intensity and/or polarity by rotations is of magnet around two axes simultaneously. This is achieved by rotation of the magnet around the first axis with simultaneous or intermittent rotation of the first axis around the second axis, which is located at an angle to the first axis.

According to the invention features a magnetic therapeutic device containing casing, a prisoner in his engine, freely moving part connected to the engine and having an inner surface, essentially limiting the camera, and at least two holes, the magnetic unit mounted in the chamber for rotation around two axes simultaneously and having two protruding shoulder, coming from him, in diametrically opposite directions and passing through at least two holes in freely moving parts, rolling the item is installed on the end of one of the two protruding shoulders, ring rolling surface located on the casing for angular application the rolling force to the workpiece during its movement along the annular surface of the rolling element retainer for the application of axial forces to the freely moving parts and provide rolling contact details with the annular surface of the rolling element.

Freely moving the item may have a hinged design on one end and drive the protruding part at the other end for free rotation within kozuharov axis, a definite line between the hinge design and drive the protruding part.

Retainer may include an element selected from the following group: washers, diaphragms and springs.

Rolling the item may have a surface containing an elastomeric material.

In addition, it is proposed a magnetic therapeutic device containing a magnet, freely moving part, surrounding the magnet and having one or more protrusions, the casing having an inner surface surrounding a freely moving part and the magnet and provided with an annular groove having a rolling surface, a rod attached to the magnet, at least one end of which stands for freely moving part, a rolling part installed at one end of the rod and in contact with the surface of the roller, and a motor mechanically associated with one of the protrusions freely moving parts, so that the rotation of the motor causes freely moving the item to rotate, which makes rolling the part to be moved along the rolling surface, which, in turn, makes rolling the item to roll, providing the rotation of the magnet around two axes.

The magnet may be essentially spherical.

Freely moving the item can be the usesto spherical or essentially round.

The motor may be a direct current motor.

Rolling the item may have a surface containing an elastomeric material.

In addition, it is proposed a magnetic therapeutic device containing freely moving circular track, a motor mechanically associated with freely moving in a circular path to bring it in a circular motion, a stationary circular track, the magnetic block located within freely moving circular track and a stationary circular track, a rod attached to the magnetic block so that the magnetic unit are the two ends, and a drive gear mounted on at least one of the two ends of the rod and in contact with freely moving in a circular path, and a fixed circular track, so that when the engine results freely moving in a circular path in a circular motion, the drive gear is moved in the same direction and at the same time rolls rotating in the transverse direction, resulting in the magnet Assembly rotates around two different axes.

A stationary circular track can be attached to the casing, which at least partially surrounds a stationary circular track, the magnetic block and freely moving range of the first track.

In addition, it is proposed a magnetic therapeutic device containing a magnet having at least one protruding shoulder, freely moving part having at least one hole through which passes rotatably at least one protruding shoulder, so that the magnet and at least one protruding shoulder can freely rotate relatively freely moving parts, engine, coupled with a freely moving part to rotate freely moving parts and magnet around the first axis of rotation, the rolling part, mounted on a protruding shoulder on the outside of freely moving parts in contact with the annular surface, which is not to rotate with the same speed as freely moving item that provides rolling rolling parts and magnet rotating around the second axis of rotation and the rotation of the magnet simultaneously around two different axes.

The magnet may be essentially spherical.

Freely moving item may be essentially spherical or essentially round.

The motor may be a direct current motor.

In addition, it is proposed a magnetic therapeutic device containing a magnet, means of rotation of the magnet around the first axis of rotation and cf is DSTV rolling magnet with its rotation around the second axis of rotation, which means rolling the magnet does not cause rotation means rotation of the magnet around the second rotation axis.

The device may contain a direct current motor for the propulsion means of the rotation of the magnet.

The magnet may be essentially spherical.

In addition, it is proposed a magnetic therapeutic device, comprising a housing, a magnetic body mounted in the housing and capable of rotation relative to the housing in both directions, so that the first axis of rotation is at an angle of essentially 90 degrees to the second axis of rotation.

The magnetic body may be capable of rotation around each axis with variable speed.

The magnetic body may be able to rotate around the first axis of rotation with the same speed, but around the second axis of rotation at a different rate.

The magnetic body may be capable of rotation by means of a mechanical device driven by an electric motor.

The device may contain electronic means for regulating the speed of rotation of the magnetic body around at least one axis.

The magnetic body may have a spherical shape, a cylindrical shape or a rectangular shape.

Magnetic body and means for rotating the magnetic body can be surrounded by a housing.

In addition,it is proposed a magnetic therapeutic device, containing a magnetic body having at least one protruding shoulder, freely moving part having at least one hole through which passes rotatably at least one protruding shoulder, so that the magnet and protruding shoulder can freely rotate relatively freely moving parts, the engine associated with freely moving part to rotate freely moving parts and magnet around the first axis of rotation, and at least one magnetic surface, which may be essentially fixed, or at least not rotate with the same speed as freely moving part, that provides a rolling magnetic body rotation around the second axis of rotation and simultaneous rotation about two different axes.

The magnetic body may be essentially spherical.

Freely moving item may be essentially spherical or essentially round.

The motor may be a direct current motor.

The magnetic body may be capable of rotation about the same speed as the engine.

In addition, it is proposed a magnetic therapeutic device containing a magnetic body, means rotating magnetic body around the first axis of rotation and means for rolling communicated to the private body by rotation around the second axis of rotation, acting simultaneously.

The magnetic body may be able to rotate around the second axis of rotation approximately the same speed at which it rotates around the first rotation axis.

The device may contain a direct current motor for the propulsion of the means of rotation.

The magnetic body may be essentially spherical.

In addition, it is proposed a magnetic body for therapeutic applications, with the possibility of rotation in both directions so that the first axis of rotation of the magnetic body is located at an angle to the second axis of rotation.

The magnetic body may be capable of rotation with variable velocity around each axis.

The magnetic body may be able to rotate around the first axis of rotation with the same speed, but around the second axis of rotation at a different rate.

The magnetic body may be capable of rotation by means of a mechanical device driven by an electric motor.

The magnetic body may be able to regulate the speed of rotation by electronic means.

The magnetic body may have a spherical shape, a cylindrical shape or a rectangular shape.

The magnetic body may be enclosed in a housing together with means of rotation of the magnetic body.

The magnetic body may be in the possibility of rotation around the second axis of rotation at approximately the same speed, how it rotates around the first rotation axis.

BRIEF DESCRIPTION of DRAWINGS

Figure 1 shows a top view of one embodiment of the present invention,

figure 2 shows a front view of one embodiment of the present invention,

figure 3 shows a perspective view of another variant of implementation of the present invention,

figure 4 shows a view in perspective of another version of the implementation of the present invention,

figure 5 shows a perspective view for another version of the implementation of the present invention,

figure 6 shows a perspective view for another version of the implementation of the present invention,

7 shows a perspective view for another version of the implementation of the present invention,

on Fig shows a perspective view for another version of the implementation of the present invention, which shows the magnetic block and freely moving item,

figure 9 shows a view in perspective of a variant of implementation of the present invention depicted in Fig, and additionally shows a closing node 90 and retainer 92,

figure 10 from a different angle shows a view in perspective of a variant of implementation of the present invention, depicted in figure 9, showing the annular surface 73 rolling and swivel item 79,

figure 11 is given the perspective view for the variant of implementation of the present invention, depicted on Fig, and additionally shows a direct current motor, the angular transmission, attached to magnetic block, partially remote casing, a closing device according to the present invention,

on Fig shows a view in perspective of a variant of implementation of the present invention depicted in Fig, additionally showing how the components are mounted in the casing 94,

on Fig a different angle shows a view in perspective of a variant of implementation of the present invention depicted in Fig,

on Fig shows a perspective view of the casing 94 for the option of carrying out the invention depicted in Fig,

on Fig a different angle shows a perspective view of the casing 94 for the option of carrying out the invention depicted in Fig.

on Fig component by component depicted embodiment of the present invention and shows the bearing part 106 and the holes 88,

on Fig shows a perspective view with a partial separation of parts for one of the embodiments of the present invention, showing the stationary magnet 110 on the stationary track 116,

on figa shows a top view of one embodiment of the present invention, which shows the fixed magnets on the stationary track 116,

on fig.18b shows a top view of one embodiment you the filling up of the present invention, which shows six stationary magnets on the stationary track 116.

The DESCRIPTION of the embodiment of the INVENTION,

Below with reference to the illustrations described preferred at present embodiment of the invention, which are not the only possible forms of implementation and/or use the present invention. Describes the functions and the sequence of Assembly steps and the use of the invention in connection with the illustrated variants of its implementation. However, it should be clear that the same or equivalent functions and sequences of Assembly steps can be used in various embodiments of the invention, which are also within the present invention.

One of the embodiments of the present invention is illustrated in figure 1. In this embodiment, biaxial rotation is accomplished by installing a permanent magnet 2 to the terminal 4, which has a drive gear in the gear 6 or other device with siteplease or traction surface attached to one end. Although in a preferred embodiment of the present invention is used gears, can be used other ways without the use of gears, for example o-rings, stars or rubberized surface, methods for the nye when exposed to an external force to provide the application to the terminal angular force. Assembly of the magnet 2, the rod 4 and the drive gear 6 is placed on the rotating circular track 8, with or agreed with the gear teeth, or other surface to transfer the specified external forces on the ends of the rod 4. The magnet 2 may be essentially rectangular or spherical in shape.

In one embodiment of the present invention, the rod 4 is placed between the rotating circular track 8 and a stationary circular track 16, which is turned to rotate in a circular path 8. The engine 20 is connected to rotate in a circular path 8 for its rotation. Angular force acting on the drive gear 6 causes the rod 4 to rotate together with the track 8. Since the drive gear 6 is adhered to the surfaces of the two circular tracks 8 and 16, the drive gear 6 rolls and simultaneously moves along circular paths. The drive gear 6 causes the rod 4 to rotate like an axis in the direction perpendicular to the direction of rotation of the rod 4 around circular tracks 8 and 16. Thus, the magnet 2 is moved, by participating in the primary rotational movement, and in the secondary rotational movement, i.e. spinning and rolling. Such a design provides a sophisticated two-axis moving magnetic field. As shown in figure 1, to provide stability and balance at the end of the article is Rina 4, opposite the drive gear 6, placed fill or floating, the gear 6'. Floating gear 6' is attached to the rod 4 to rotate, therefore, the gear 6' does not report the rolls forces the rod 4 and the rolling rod 4 is caused only by the gear 6.

In particular, one embodiment of the present invention shown in figures 1 and 2. In figure 1, which shows a top view for this option, perform, demonstrate fixed gear track 16, the teeth 10, the magnetic unit 2, the ends of the rod 4, the drive gear 6 and the floating gear 6'. In figure 2, which shows a side view of this option, perform, additionally demonstrates free moving gear ring 8 and the motor 20. (Figure 1 is a free moving gear ring 8 and the motor 20 are removed for better demonstration of the gears 6 and 6' and the fixed gear track 16.) As shown in figure 1, the magnetic unit 2 is mounted on the rod 4. Although the magnetic unit 2 shown in this embodiment has a spherical shape, can be used magnets of other shapes, for example a rod magnet, sheet magnet having a given configuration of the magnetic field, etc. in Addition, although in this embodiment, the present invention showing the rod 4 passing through the magnetic unit 2, an alternative rod 4 can be PR is established to one side or to one end of the magnetic unit 2.

On one end of the rod 4 has a drive pinion 6, which moves between the fixed toothed ring 16 and free moving gear ring 8. At the other end of the rod 4 has a floating gear 6', which also moves between the fixed toothed ring 16 and free moving gear ring 8. Preferably, a stationary toothed ring 16 and free moving gear ring 8 were made of essentially non-magnetic material so as not to distort the magnetic field generated by the magnetic unit 2. Free moving gear ring 8 has teeth 9 on the first surface 12 and the teeth 11 on the second surface 14. The motor 20 rotates gear 18 which, in turn, is engaged with the teeth 9 on the first surface 12 of the ring 8 directly or indirectly. Accordingly, during the rotation of the gear 18, it causes the rotating freely moving gear ring 8.

Because the gears 6 and 6' are in engagement with the teeth 11 on the second surface 14 free moving gear ring 8 by rotating the free moving gear ring 8 rod 4 rotates, creating a primary rotational movement of the magnetic unit 2. However, the end gears 6 and 6' are also in engagement with the teeth 10 on the surface of the stationary ring 16. In it lie the floating gear 6' is installed on one end of the rod 4 to rotate and thus does not inform the core 4 rolls in force, the drive gear 6 is fixed at the other end of the rod 4. As a result, when the drive gear 6 when the rotation of the rolls on the free moving gear ring 8, the rod 4 is also rolling, rotating around the second axis. Therefore, the biaxial rotation of the magnetic unit 2, which provides complex biaxial rotation of the magnetic field. In this design to create such a complex time-varying magnetic field required only one magnet 2. The whole device in this embodiment, the present invention can be placed in a plastic case (for example, see figure 5 and 11-15), allowing the spherical magnetic unit 2 to rotate freely around two independent axes. The device, made according to the present invention can be installed or moved manually in the desired area of the human body or it can be attached to parts of the body or clothing of the user.

In another embodiment, the present invention magnet Assembly includes a freely moving part 30 having one or more protrusions and the surrounding magnet Assembly 22. The rod 24 is attached to the magnetic unit 22. The two ends of the rod 24 are for freely moving part 30. To one end of the rod 24 is attached rolling item 26 (as an option on the anti-Christ. Apolonas the end of the rod 24 may be mounted rotatably moving part, but it was found that with sufficient precision manufacturing of components and minimize the tolerances need a second floating or moving parts missing.) This embodiment of the present invention includes a casing 52, which surrounds the magnet Assembly has an inner surface provided with an annular groove in which is placed a rolling item 26; in addition, the casing has one or more hinge assemblies 79, designed to hold the magnet Assembly to rotate. The rod 24, the rolling part 26, freely moving part 30 and the casing 52 is preferably made of essentially non-magnetic materials.

The engine 42 or similar device attached to the protruding part 36 freely moving part 30 is directly or indirectly using a belt, gears, etc. While the rotation of the motor 42 causes rotation of the magnet Assembly. When the rotation of the magnet Assembly and the rolling part and the moving part roll by contact with the annular surface 28 of the annular grooves formed on the inner surface of the casing 52. This rolling rolling parts 26 causes the rotating magnet Assembly 22. Thus, the magnetic unit 22 rotates around one axis and rolls, revolving around each other, creating a field with changing the on-time magnetic flux density and time-varying rotation angle of the thread for therapeutic effects on humans or animals.

One example of this variant implementation of the present invention shown in figure 3. As in the previous embodiment of the present invention, the magnetic unit 22 is attached to the rod 24. One end of the rod 24 has a rolling part 26, which is in contact with the annular surface 28. The surface 28 may be formed in the casing surrounding the magnetic unit 22, as described above. Figure 3 the remainder of the casing removed so that you only see the surface 28. The surface 28 may also be fixed ring with surface adhesion, sufficient for the transmission of angular force rolling parts 26. Rolling part 26 and/or the surface 28 is preferably made of an elastomeric material or other material with sufficient grip. In addition, around a spherical magnetic unit 22 has a freely moving part 30, which in the radial direction is located on the inside surface 28 and at an angle thereto. The rod 24 acts through the holes 25 in freely moving part 30 with the possibility of rotation. As a result, when the rolling part 26 rolls along the surface 28, such as the movement and makes freely moving part 30, but the rolling of the rolling part 26 does not cause the freely moving part 30 to roll.

As in the first half 32 and the second half of the 34 free the moving part 30 has a protruding portion 36, which is installed in the casing or cover 52 for rotation. An example of such a cover is shown in figure 5, as an example of the hinge parts 79 to install the freely moving part 30 in the housing 52 rotatably shown in figure 10. With a projecting part 36 in the first half of the 32 freely moving ring 30 is connected to the drive belt 38. In this embodiment of the present invention the drive belt 38 is a rubber tape, but it can be any product with similar properties, for example a toothed belt, chain, etc. Drive belt 38 is connected with the rotating unit 40, which is connected to the motor 42. The motor 42 may be a single-speed motor or a motor that can rotate at variable speed.

Thus, the motor 42 to rotate the block 40 forms a primary means of rotation, which make the magnetic unit 22 and freely moving part 30 to rotate around one axis. When freely moving part 30 rotates, the magnetic unit 22 is rotated not only by this means the primary rotation, but also by means of the secondary rotation, formed through the interaction of rolling parts 26 and the annular rotating surface 28.

4 shows another embodiment of the present invention. In this is case, the motor 43 is connected with a projecting part 46 directly without the use of the belt. The motor 43 is directly rotates the protruding portion 46, causing the freely moving part 50 to rotate, which causes the same effect on other parts of the device, as in the previously opened embodiment of the invention.

Figure 5 presents one such type of casing 52, which may be used in preferred versions of the present invention. The housing 52 includes a switch 56 power supply connected to the engine (not shown). In preferred versions of the present invention the casing is made of plastic, but it can be made from other materials with similar overall non-magnetic properties. However, the present invention can also be used without a casing and partially transparent cover, for example with a window 54 that allows the user to see the complex movement of the inner magnetic unit 22.

Although figures 1 and 2 shows an embodiment of the present invention, in which the teeth 9 and the teeth 11 are located on opposite sides of a gear wheel 8, the invention includes other configurations. For example, figure 6 the motor 64 is connected with the outside in the radial direction surface of the rotating wheel 68. As shown in Fig.6, the motor 64 causes the drive belt 60 to rotate the wheel 68, which, in the howling of all, causes the rotating magnet Assembly 62. The magnetic unit 62 rotates because of the rotating end of the tool 66 is located between the rotating wheel 68 and a fixed wheel, as described above in connection with figure 2. Figure 6 of the illustrative purpose fixed wheel removed. This is a fixed wheel with rotating wheel 68 causes the rotating of the rotating end of the tool 66. In the magnet Assembly 62 rotates around two axes, as in figure 1 and 2.

Figure 6 illustrates an embodiment of the present invention, in which the motor 64 is connected with the wheel 68 indirectly, using a drive belt 60. Shows the drive belt is a rubber drive belt, but may also be a toothed belt, chain, etc. provided that the outer radial surface of the rotary gear 68 includes corresponding teeth, sprocket or other friction means to the rotating wheel 68 was applied angular force. Alternatively, the motor 64 can be set so that it was directly connected with the outside in the radial direction surface of the wheel 68 by means of a rectangular or beveled teeth of the transmission or by other combinations of the running surfaces, as shown in Fig.7. In any case, the result will be the same: magnetic block 62 at the same time BP is reportedly around two axes, providing complex biaxial rotational movement coming from him of the magnetic field.

Another embodiment of the present invention shown in Fig-15. Similarly to the variant shown in figure 3, the motor 74 (shown in figure 11) apply an angular force to the magnetic unit 72, while the annular surface 78 of the roller remains stationary relative to the casing 52. In the magnet Assembly 72 attached to the end of the rolling part 76, as described above with respect to the rolling part 26 is forced to rotate about the primary axis and simultaneously to roll with rotation about the secondary axis. In contrast to figure 3, the axis of rotation of the motor is perpendicular to the primary axis of rotation of the magnet Assembly.

More specifically, the magnetic unit 72 is placed within freely moving parts 80, including the first half 81 and the second half 83. When connecting surfaces 82 and 84 of the first and second halves of freely moving parts 80 of the inner surface of the freely moving parts 80 generates approximately spherical chamber in which is placed a magnetic unit 72. When the magnetic unit 72 is placed in the camera, the United surfaces 82 and 84 welded in enough places so that they withstood the impact, which is characteristic for consumer devices, for example, when the device is dropped in the process of use, etc

United surface 82 and 84 form one or more gaps 87. When the surfaces 82 and 84 are welded, these gaps 87 form holes 88. Furthermore, the magnetic unit 72 further includes two protruding shoulder 73 that go from the magnetic unit 72 in diametrically opposite directions, leaving two holes 88. Shoulders can be a separate pins, rods, etc. coming from the magnetic unit 82, or alternatively, they may be different ends of one long rod or stud. For the present invention is also applicable to a magnetic unit 72 with one protruding shoulder or pin 73 provided that this magnetic unit 72 remains fairly stable and freely rotates around the axis defined by the longitudinal direction of the specified speaker shoulder 73. Luggage, bounded by the inner surfaces of the freely moving parts 80 and the openings 88 formed by the gaps 87, formed in the stacked surfaces 82 and 84 must be large enough to hold in the free position of the magnetic unit 72 and protruding shoulder 73, respectively. Thus, although the magnetic unit 72 is essentially enclosed within freely moving parts 80, the magnetic unit 72 is able to freely rotate relatively freely moving parts 80 around the axis of rotation, the ass is emeu one or two protruding shoulders 73.

Freely moving part 80 is held in a closing node 90. Closing the node 90 has an inner surface 91, which forms a roughly spherical chamber, the annular surface 78 raceway formed on the inner surface 91, and the hinge part 79, located on the inner surface 91. In addition, part of the inner surface 91 operates as a holding surface for curved washers, which are discussed further below. Preferably, the closing site 90 was stationary relative to the casing 52; thus, it can be installed on the casing or may be integrally formed on the inner surface of the casing 52. In any case, between the outer surface of the freely moving parts 80 and the inner surface 91 of the end node 90 has sufficient clearance to freely moving part 80 can rotate relative to the hinge structure 86, which is formed in the first half of the 81 freely moving parts 80 and which is pivotally connected with the hinge part 79. Figure 10 illustrated embodiment of the present invention, in which the articulated part 79 is used the axis of the neck support bearing. Such fastening freely moving parts 80 within the end node 90 with the possibility of its rotation can be postign is the use of other connecting structures, for example, circular grooves are formed in a closing node, and the edge formed at the top of the first half of the 81 freely moving parts 80.

As mentioned above, in a preferred embodiment of the present invention, the rotation of the motor 74 is in the direction perpendicular to the desired direction of rotation of the freely moving parts 80. Rotational movement of the motor 74 is transmitted to the standard angular frame 75 transmission, which has two associated angular gear or similar device. At the same time, the engine speed can be increase and decrease, which inversely affects the transmitted torque. Currently the best option includes a DC motor connected to the steering angular frame 75 transmission, allowing a tenfold increase in torque. The direct current motor powered by rechargeable batteries 70 located inside the body 70' of the battery, or directly from the plug through the connector 71' rectifying Converter 71, which can also work as a charger for the battery, as is generally the case in household devices.

The resulting rotational force of the engine after changing the direction of rotation by 90° and reducing the speed to the timid 75 gear makes freely moving part 80 to move almost as well as illustrated and discussed above in relation to figure 4. Drive shaft (not shown) passes through the axial hole 89 and directly transmits the angular force drive the protruding part 85, atop the second half of the 83 freely moving parts 80.

At the end of one of the speakers shoulders 73 has a rolling item 76. When rotating freely moving parts 80 rolling part 76 is forced to move along the circular surface 78 rolling. The annular surface 78 of rolling passes angular force rolling parts 76 when the latter is moved along the circular surface 78 rolling. Between the inner surface 91 of the end node 90 and freely moving part 80 is placed retainer 92, operating with an axial clamping force on freely moving item 80. Although the retainer figure 9 shows a spring or curved washer, to create a force acting along the axis in freely moving part 80 may also be used other means, such as leaf spring, compression spring, diaphragm, etc. This ensures contact between the rolling part 76 and the annular surface 78 of the roller is sufficient to create the specified angular force acting on the rolling part 76. In the rolling part 76 is forced to roll rotating in the Rog its longitudinal axis. On the opposite end of the arm 73 can be set moving item, as described above in connection with figure 3 and 4. However, at relatively strict limits on the size of the magnetic node and end node of the need for moving parts may be missing.

Preferably, the operator had a visual means to understand the complexity of the biaxial motion, which in this configuration performs magnetic unit 72. On Fig shows that in the first half of the 81 freely moving part 80 has a large through hole. This allows you to see the complex movement of the magnetic unit 72 with the outer side of freely moving parts 80. To achieve this, it is permissible to use a transparent or translucent material. Similarly, the lower half of the 93 closing node 90, shown in Fig.9, can be made of transparent or translucent material or may have the same relatively large openings, and the first half of the 81. Part of the cover 94 may be a window or lens 96, as shown at 11 to 14.

In addition to the window or lens 96 the configuration shown in figs, 12 and 13, provides particularly effective for the present invention composition. The two halves of the casing 94 is made of plastic and pressed together, they hold the CTA or the lens 96, the switch 98 power, the motor 74 box 75 gear casing 70' battery connector 71' DC and closing the node 90. That is, essentially every component of the product is kept one of the compressed halves of the casing, and so the other half can be removed without disturbing the configuration of the components of the invention and products. On Fig and 13 shows the top view and bottom view, respectively, for efficient layout of the main and auxiliary components of the present invention in the illustrated embodiment, its implementation. On Fig and 15 shows the top view and bottom view respectively of another casing that can be used for the present invention. The power cord/charging is detachable and is not required to implement the present invention, since the engine can run on batteries 70, as shown in Fig.

And again, as mentioned above, all components, except the magnetic block, preferably made of a material which does not adversely affect the magnetic flux coming from the magnetic unit 72. Alternatively, by proper choice of materials for the end node can have a positive impact on the magnetic flux concentrating magnetic energy and focusing it towards the treated body part.

Another embodiment of the present from which retene illustrated in Fig and 17. In this embodiment, the biaxial rotation of a magnetic body carried out by applying a constant magnetic field at an angle to the direction of rotation of the magnetic body. A constant magnetic field causes a rotating magnetic body roll while revolving about a second rotation axis that is at an angle to the first axis of rotation. An embodiment of the present invention, shown in Fig, includes at least one stationary magnet 110, is fixed relative to the stationary track 116, which is typically, but not necessarily, also fixed relative to the end node 90.

The magnetic body 72 is rotated around the first rotation axis together with a freely moving part 80, whereas the stationary magnet or magnets 110 does not rotate together with the freely moving part 80. Self magnetic body 72 mounted within freely moving parts 80 for rotation, for example by means of roller bearings 106, mounted on the protruding shoulders 73 and installed in holes 88 closing node 90; thus it can rotate around the second axis of rotation. When the magnetic body 72 is rotated around the first axis of rotation, it interacts with the magnetic field generated by the stationary magnets 110. It's a constant magnetic field interacts with the rotating magnetic the m field of the magnetic body 72 and thus causes the magnetic body 72 to rotate about the second axis of rotation without the need of physical contact of the magnetic body 72 or protruding shoulders 73 with a fixed track 116.

In an embodiment of the present invention, shown in Fig and 17, a stationary track 116 has a slightly larger diameter than freely moving part 80; in addition, it preferably has from 1 to 8 miniature pushbutton surface of the magnets attached to the wall track or embedded in her preferably, these magnets were distributed evenly around the track. Each stationary magnet 110 is preferably oriented so that one of its magnetic poles directed in the direction of the magnetic body 72. As a result, the influence of the magnetic flux of the fixed magnets 110 on the magnetic body 72 is a maximum. Alternatively, a fixed track 116 may be completely made of magnetic material, which can be uniformly magnetized at an angle to the first axis of rotation or magnetized as sections of alternating polarity, which has the same effect on the magnetic body 72 that separately and attached button magnets mentioned above.

Therefore, when the magnetic body 72 rotate around the first axis of rotation by means of freely moving parts 80, due to its interaction with the magnetic flux of the fixed magnets 110 of the magnetic body 72 is rotated intermittently or continuously around the second axis of rotation. This biaxial rotation occurs without to the any physical contact of the magnetic body 72 with a fixed track 116; instead, the magnetic body interacts with the track 116 only by magnetic forces arising from the interaction with one or more stationary magnetic fields. Therefore, this embodiment of the present invention has an additional advantage in reducing the number of points of physical contact and, thus, the number of parts that are subject to friction and wear. In addition, by reducing the number of moving parts, this embodiment of the present invention is characterized by a slightly lower noise.

Another embodiment of the present invention includes establishing the effect of the interaction between the magnets on the surface of the protruding outward of the rotating parts. That is, the magnetic torque part, replacement rolling item 76, shown above, in some embodiments of the present invention may provide for freely moving the workpiece 80 and, when it rotates around the first axis of rotation, to move in a circle slightly above the stationary track 116. In this embodiment, a magnetic torque item contains one or more magnets that interact with one or more stationary magnets 110 along a fixed track 116, causing the magnetic torque details of rotations is about being around the second axis of rotation. This configuration provides the necessary magnetic coupling to rotate the magnetic body 72 around the second axis of rotation as it rotates around the first rotation axis.

In this embodiment, each stationary magnet 110 is preferably oriented so that one of its magnetic poles was directed in the direction of the magnetic torque of the workpiece as it passes directly over it. As a result, the influence of the stationary magnets 110 on the magnetic rotating parts increases, which leads to the maximum increase of the angular force which acts on the magnetic body 72 and causes it to rotate around the second rotation axis.

Although the present invention has been described with respect to specific variants of its implementation, it is clear that additional modifications of the present invention may be made without departing from the basic concept.

INDUSTRIAL APPLICABILITY

The aim of the present invention is to provide a handheld device for forming a time-varying magnetic field to influence the body of man or animal. Another objective of the present invention is to provide a therapeutic device that generates a magnetic field changing in time in more than one direction.

Another goal is to create a device is VA, which you can hold in your hand or attach to body parts or clothing for exposing the body to a time varying magnetic field.

These and other objectives and advantages of the present invention are clear from the description and accompanying drawings.

1. Magnetic therapeutic device containing casing, a prisoner in his engine, freely moving part connected to the engine and having an inner surface, essentially limiting the camera, and at least two holes, the magnetic unit mounted in the chamber for rotation around two axes simultaneously and having two protruding shoulder, coming from him, in diametrically opposite directions and passing through at least two holes in freely moving parts, rolling the item is installed on the end of one of the two protruding shoulders, ring rolling surface located on the casing for the application of angular force to the rolling details when moving along the annular surface of the rolling element retainer for the application of axial forces to the freely moving parts and provide rolling contact details with the annular surface of the rolling element.

2. The device according to claim 1, in which freely moving part is the hinge design on one end and drive the protruding chastina the other end for free rotation within the housing about an axis, a definite line between the hinge design and drive the protruding part.

3. The device according to claim 1, in which the retainer includes an element selected from the following group: washers, diaphragms and springs.

4. The device according to claim 1, in which the rolling part has a surface containing an elastomeric material.

5. Magnetic therapeutic device containing a magnet, freely moving part, surrounding the magnet and having one or more protrusions, the casing having an inner surface surrounding a freely moving part and the magnet and provided with an annular groove having a rolling surface, a rod attached to the magnet, at least one end of which stands for freely moving part, a rolling part installed at one end of the rod and in contact with the surface of the roller, and a motor mechanically associated with one of the protrusions freely moving parts, so that the rotation of the engine causes the freely moving the item to rotate that makes rolling the part to be moved along the rolling surface, which, in turn, makes rolling the item to roll, providing the rotation of the magnet around two axes.

6. The device according to claim 5, in which the magnet is essentially spherical.

7. The device according to claim 5, in which freely moving part is essentially spherical.

8. The device according to claim 5, in which freely moving part is essentially round.

9. The device according to claim 5, in which the motor is a direct current motor.

10. The device according to claim 5, in which the rolling part has a surface containing an elastomeric material.

11. Magnetic therapeutic device containing freely moving circular track, a motor mechanically associated with freely moving in a circular path to bring it in a circular motion, a stationary circular track, the magnetic block located within freely moving circular track and a stationary circular track, a rod attached to the magnetic block so that the magnetic unit are the two ends, and a drive gear mounted on at least one of the two ends of the rod and in contact with freely moving in a circular path, and a fixed circular track, so that when the motor drives the freely moving circular track in circular motion, the drive gear is moved in the same direction and at the same time rolls rotating in the transverse direction, resulting in a magnetic block is rotatin around two different axes.

12. The device according to claim 11, in which a stationary circular track attached to the casing that at least partially surrounds a stationary circular track, the magnetic block and freely moving in a circular path.

13. Magnetic therapeutic device containing a magnet having at least one protruding shoulder, freely moving part having at least one hole through which passes rotatably at least one protruding shoulder, so that the magnet and at least one protruding shoulder can freely rotate relatively freely moving parts, engine, coupled with a freely moving part to rotate freely moving parts and magnet around the first axis of rotation, the rolling part, mounted on a protruding shoulder on the outside of freely moving parts in contact with the annular surface, which is not to rotate with the same speed as freely moving item that provides rolling rolling parts and magnet rotating around the second axis of rotation and the rotation of the magnet simultaneously around two different axes.

14. The device according to item 13, in which the magnet is essentially spherical.

15. The device according to item 13, in which freely moving item is su is estu spherical.

16. The device according to item 13, in which freely moving part is essentially round.

17. The device according to item 13, in which the motor is a direct current motor.

18. Magnetic therapeutic device containing a magnet, means of rotation of the magnet around the first axis of rotation and means for rolling the magnet with its rotation around the second axis of rotation, which means rolling the magnet does not cause rotation means rotation of the magnet around the second rotation axis.

19. The device according to p containing a direct current motor for the propulsion means of the rotation of the magnet.

20. The device according to p, in which the magnet is essentially spherical.

21. Magnetic therapeutic device, comprising a housing, a magnetic body mounted in the housing and capable of rotation relative to the housing in both directions, so that the first axis of rotation is at an angle of essentially 90 degrees to the second axis of rotation.

22. The device according to item 21, in which the magnetic body has a possibility of rotation around each axis with variable speed.

23. The device according to item 21, in which the magnetic body is able to rotate around the first axis of rotation with the same speed, but around the second axis of rotation at a different rate.

24. The device according to item 21, in which the magnetic the e body has the possibility of rotation by means of mechanical devices, driven by an electric motor.

25. The device according to item 22, containing electronic means for regulating the speed of rotation of the magnetic body around at least one axis.

26. The device according to item 23, containing electronic means for regulating the speed of rotation of the magnetic body around at least one axis.

27. The device according to item 21, in which the magnetic body has a spherical shape.

28. The device according to item 21, in which the magnetic body has a cylindrical shape.

29. The device according to item 21, in which the magnetic body has a rectangular shape.

30. The device according to item 22, in which the magnetic body and means for rotating the magnetic body surrounded by a hull.

31. The device according to item 23, in which the magnetic body and means for rotating the magnetic body surrounded by a hull.

32. Magnetic therapeutic device containing a magnetic body having at least one protruding shoulder, freely moving part having at least one hole through which passes rotatably at least one protruding shoulder, so that the magnet and protruding shoulder can freely rotate relatively freely moving parts, the engine associated with freely moving part to rotate freely moving parts and magnet around the first axis of rotation, and Myung is our least one magnetic surface, having the opportunity to be essentially stationary, or at least not rotate with the same speed as freely moving item that provides a rolling magnetic body rotation around the second axis of rotation and simultaneous rotation about two different axes.

33. The device according to p, in which the magnetic body is essentially spherical.

34. The device according to p, in which freely moving part is essentially spherical.

35. The device according to p, in which freely moving part is essentially round.

36. The device according to p, in which the motor is a direct current motor.

37. The device according to p, in which the magnetic body is rotating at approximately the same speed as the engine.

38. Magnetic therapeutic device containing a magnetic body, means rotating magnetic body around the first axis of rotation and means of rolling of the magnetic body with the rotation around the second axis of rotation, acting simultaneously.

39. The device according to 38, in which the magnetic body is able to rotate around the second axis of rotation approximately the same speed at which it rotates around the first rotation axis.

40. The device according to 38, containing a direct current motor for driving when edst rotation.

41. The device according to 38, in which the magnetic body is essentially spherical.

42. Magnetic body for therapeutic applications, with the possibility of rotation in both directions so that the first axis of rotation of the magnetic body is located at an angle to the second axis of rotation.

43. Magnetic body according to 42, with the possibility of rotation with variable velocity around each axis.

44. Magnetic body according to 42, with the possibility of rotation around the first axis of rotation with the same speed, but around the second axis of rotation at a different rate.

45. Magnetic body according to 42, with the possibility of rotation by means of a mechanical device driven by an electric motor.

46. Magnetic body according to item 43, with the possibility to adjust the speed by electronic means.

47. Magnetic body according to item 44, with the possibility to adjust the speed by electronic means.

48. Magnetic body according to 42, which has a spherical shape.

49. Magnetic body according to 42, which has a cylindrical shape.

50. Magnetic body according to 42, which has a rectangular shape.

51. Magnetic body according to item 43, enclosed in a housing together with means of rotation of the magnetic body.

52. Magnetic body according to item 44, enclosed in a housing together with means of rotation of the magnetic body.

53. Magni is a great body 42, with the possibility of rotation around the second axis of rotation at approximately the same speed at which it rotates around the first rotation axis.



 

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