Device for treatment of a biological object

 

The invention relates to a device for impacts on biological objects variables and/or permanent magnetic fields and can be used in magnetic therapy for therapeutic effects on humans, as well as in agriculture for germination and stimulate or retard plant growth. The device comprises at least two coils connected to a source of electric current and posted on the cores made in the form of rods. The cores of the coils are located relative to each other at an angle and at least one of them made the face that is not perpendicular to its axis, and at least one inductor winding is performed with coils, not perpendicular to the axis of the core and/or not parallel to each other at different sites along the length of the core. The cores of the coils can be located relative to each other at an angle of 9010oand/or 18010oand the angle of the end surface of the core with respect to the axis may be 4510o. In addition, the cores can be made in the form IU the of effects by providing the possibility of the formation in the zone of influence of the magnetic field of a given configuration. 4 C.p. f-crystals, 2 Il.

The invention relates to a device for impacts on biological objects variables and/or permanent magnetic fields and can be used in magnetic therapy for therapeutic effects on humans, as well as in agriculture for germination and stimulate or retard the growth of plants.

The closest analogue is a device for treatment of a biological object containing at least two coils connected to a source of electric current and posted on the cores made in the form of rods (EN 2110294 C1, 10.03.1998).

However, the known solution does not allow to form in the zone of influence of magnetic fields of various configurations.

The technical result is to increase the efficiency effects due to the possibility of the formation in the zone of influence of magnetic fields of various configurations.

This is achieved by a device for treatment of a biological object containing at least two coils connected to a source of electric current and posted on the cores made in the form of cores, the cores of the coils u is perpendicular to its axis, and at least one inductor winding is performed with coils, not perpendicular to the axis of the core and/or not parallel to each other at different sites along the length of the core.

While the cores of the coils can be located relative to each other at an angle of 9010oand/or 18010oand the angle of the end surface of the core with respect to its axis may be 4510o. Themselves cores can be made also in the form of metal tubes or dielectric tubes.

In Fig. 1 presents variants of design of inductors used in the device. In Fig.2 presents options for the location of the coils relative to each other in the X-Y coordinates with the point of intersection of the coordinates at the point "0".

In an example implementation presents a device for impacts on biological objects containing spaced relative to each other inductor connected to an AC and/or DC electric current. Each of the inductors are placed on the respective core 1. The core 1 is made in the form of rods. On Mechnikov 1 has a front surface, not perpendicular to its axis 3. In Fig.1, 2 shows the coils a and C, which both end surfaces are made with a bevel. In addition, at least one inductor winding is performed with coils, not perpendicular to the axis 3 of the core 1 (Fig.1, 2, coils A, B, C) and/or not parallel to each other at different sites along the length of the core 1 (Fig.1, 2 coils a, b).

The device operates as follows. The biological object is placed in between the inductors in the field of point 4 is "0" (see Fig.2). Then winding 2 connected to a current source (not shown). Due to what at the point "0" and in the space around this point, create a magnetic field, the orientation of which depends on the shape of the elements used coils and their number. The parameters of this field are selected experimentally depending on the type of facility and from the task.

Thus, the proposed device allows to solve a variety of tasks to acceleration or deceleration of the growth of biological tissue and can successfully find application in medicine for various therapeutic procedures, as well as in agriculture to accelerate germination and accelerated plant growth.

2. The device under item 1, characterized in that the cores of the coils are located relative to each other at an angle of 9010and/or 18010.

3. The device according to PP.1 and 2, characterized in that the angle of the end surface of the core with respect to the axis 4510.

4. The device according to PP.1-3, characterized in that the cores in the form of metal tubes.

5. The device according to PP.1-3, characterized in that the cores are made in the form of dielectric tubes.

 

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