CN110620489A - Energy differential mechanism - Google Patents

Abstract

The invention relates to an energy differential. It includes: the output unit comprises an output frame, and a polarizing coil and a vacuum frequency coil which are arranged on the output frame, wherein iron cores of the polarizing coil and the vacuum frequency coil are permanent magnet hollow iron bodies, and the polarizing coil processes current to flow through the vacuum frequency coil so as to convert the electric energy to the output coil; and the output unit comprises an output coil, an induction coil and an input coil, wherein the iron cores of the input coil, the output coil and the induction coil are permanent magnets, and the energy of the induction coil is supplied to the output coil and the components by induction electric energy. The invention has the beneficial effects that: when the energy differential mechanism is used, magnetic field polarized energy is used for supplementing space single-polarized data energy, so that space single-polarized energy can be processed for use.

Description

an energy differential

technical field

The invention belongs to the field of electronic technology, and in particular relates to an energy differential.

Background technique

The invention is the latest technology, which mainly uses electric energy to polarize vacuum magnetic energy density energy to supplement the single-polarization data energy use, so as to achieve the purpose of supplementing the space single-polarization data energy use.

Contents of the invention

In order to achieve the best use effect of the energy change of the single polarization of the space and the polarization data, the present invention provides an energy differential. Using this energy differential, the vacuum magnetic energy density energy is used to compensate for the single polarization of electric energy. The energy use of polarized data is used to compensate for the energy use of single-polarized data in space.

The technical scheme adopted in the present invention is:

The invention relates to an energy differential. It includes: an output unit, including an output frame and a polarizing coil and a vacuum frequency coil arranged on the output frame. The iron cores of the polarizing coil and the vacuum frequency coil are permanent magnet hollow iron bodies, and the polarizing coil handles current Converting the electrical energy to the output coil by flowing through the vacuum frequency coil; an output unit comprising an output coil and an induction coil and an input coil, the cores of which are permanent magnets , the energy source of the induction coil is supplied to the output coil and components as induction electric energy.

Preferably, the output frame is provided with an input coil, the output frame is configured as a square frame, the input coil positively polarizes electric energy, and the input coil is arranged on the edge of the induction coil, between the induction coil and the vacuum frequency coil and In the changing magnetic field of the polarized coil.

Preferably, a polarizing coil is also provided on the receiving frame, and the change of the polarizing coil comes from the change of the vacuum frequency coil, the output coil and the input coil, and the polarizing coil is set relative to the edge of the vacuum frequency coil, Located in the changing magnetic field of vacuum frequency coils and induction coils.

Preferably, an induction coil is also arranged on the output frame, and the change of the induction coil comes from the change of the vacuum frequency coil and the polarization coil, and the induction coil is arranged on the edge of the output coil and the input coil, and is located at And in the changing magnetic field of the input coil and vacuum frequency coil and polarized coil.

Preferably, a vacuum frequency coil is also provided on the output frame, and the change of the vacuum frequency coil comes from the change of the input coil, the output coil and the polarization coil, and the vacuum frequency coil is arranged symmetrically with respect to the polarization coil, In the changing magnetic field of the input coil and polarizing coil and the output coil and induction coil.

Preferably, an output coil is also arranged on the output frame, and the change of the output coil comes from the change of the induction coil, the vacuum frequency coil and the polarization coil, and the output coil is set relative to the edge of the induction coil and is located at the vacuum frequency In the changing magnetic field of coils and induction coils and polarized coils.

Preferably, the output frame is also provided with a permanent magnet, the change of the permanent magnet comes from the change of the vacuum frequency coil, the output coil, the input coil, the induction coil and the polarization coil, and the permanent magnet is relative to the output frame The interior is juxtaposed in the changing magnetic field of the vacuum frequency coil and output coil and induction coil and input coil and polarizing coil.

The beneficial effects of the present invention are: when the energy differential is in use, the magnetic field polarization energy is used to supplement the space single-polarization data energy use, so as to achieve the processing of the space single-polarization energy use.

Description of drawings

Fig. 1 is a schematic diagram of an energy differential in a preferred embodiment of the present invention.

In the figure: 1. bracket; 2. input coil; 3. output coil; 4. vacuum frequency coil; 5. polarized coil; 6. induction coil; 7. permanent magnet.

Fig. 2 is a vacuum frequency coil and a polarizing coil provided by the present invention.

Detailed ways

As shown in Figure 1, the energy differential provided by the present invention includes an output unit. The energy differential of the present invention and its various parts will be described in detail below.

As shown in Figure 2, the present invention provides a vacuum frequency coil and a polarized coil.

As shown in Figure 1, the output unit includes an output frame 1, an input coil 2, an induction coil 6, a vacuum frequency coil 4, and a polarization coil arranged on the output frame 1, which are arranged side by side, and the input energy of the input coil 2 flows through the vacuum frequency coil 4 And the polarized coil 5 , the induction coil 6 and the permanent magnet 7 transmit the single polarized energy system to the output coil 3 .

As shown in Figure 2, the output unit includes an output frame 1, a vacuum frequency coil 4 and a polarizing coil 5 arranged on the output frame 1, and the polarizing coil 5 handles the permanent magnet 7 and the induction coil 3 energy conversion and transmission to the vacuum frequency coil 4 , the vacuum frequency coil 4 handles the energy conversion of the polarized coil 5 and transmits it to the output coil 3.

As the first preferred embodiment of the output unit, as shown in Figure 1, the output frame 1 is provided with an input coil 2, the output frame 1 is configured as a square frame, the input coil 2 positively polarizes electric energy, and the input coil 2 is set relative to the edge of the induction coil 6, located in the changing magnetic field of the induction coil 6 and the vacuum frequency coil 4 and the polarizing coil 5.

The second preferred embodiment is based on the first preferred embodiment, as shown in Figure 1, the output frame 1 is also provided with a polarized coil 5, the change of the polarized coil 5 is between the vacuum frequency coil 4 and The output coil 3 and the input coil 2 come from changes, and the polarized coil 5 is arranged on the edge of the vacuum frequency coil 4 and located in the changing magnetic field of the vacuum frequency coil 4 and the induction coil 6 .

The third preferred embodiment is based on the second preferred embodiment, as shown in Figure 1, the output frame 1 is also provided with an induction coil 6, the change of the induction coil 6 is between the vacuum frequency coil 4 and the polarization The coil 5 is changed, and the induction coil 6 is arranged on the edge of the output coil 3 and the input coil 2, and is located in the changing magnetic field of the output coil 3, the input coil 2 and the vacuum frequency coil 4 and the polarizing coil 5.

The fourth preferred embodiment is based on the third preferred embodiment, as shown in Figure 1, the output frame 1 is also provided with a vacuum frequency coil 4, the change of the vacuum frequency coil 4 is between the input coil 2 and the output The coil 3 and the polarizing coil 5 come from changes. The vacuum frequency coil 4 is arranged symmetrically with respect to the polarizing coil 5 , and is located in the changing magnetic field of the input coil 2 and the polarizing coil 5 and the output coil 3 and the induction coil 6 .

The fifth preferred embodiment is based on the fourth preferred embodiment, as shown in Figure 1, the output frame 1 is also provided with an output coil 3, the change of the output coil 3 is between the induction coil 6 and the vacuum frequency coil 4 and the polarizing coil 5, the output coil 3 is set relative to the edge of the induction coil 6, and is located in the changing magnetic field of the vacuum frequency coil 4 and the induction coil 6 and the polarizing coil 5.

The sixth preferred embodiment is based on the fifth preferred embodiment, as shown in Figure 1, the output frame 1 is also provided with a permanent magnet 7, the change of the permanent magnet 7 is between the vacuum frequency coil 4 and the output coil 3, the input coil 2, the induction coil 6 and the polarizing coil 5, the permanent magnet 7 is arranged side by side relative to the inside of the output frame 1, and is located at the vacuum frequency coil 4, the output coil 3, the induction coil 6 and the input coil 2 And in the changing magnetic field of the polarizing coil 5.

Thus, the working principle of the energy differential as the sixth preferred embodiment can be referred to as follows:

When the input coil 2 inputs energy, there is a changing magnetic field around the input coil 2, and the input coil 2 is arranged around the induction coil 6, the vacuum frequency coil 4 and the permanent magnet 7, so the induction coil 6 and the vacuum frequency coil 4 Corresponding polarization energy is generated in the coil. Similarly, the input coil 2 input energy uses the polarized electric energy energy from the induction coil 6 and the permanent magnet 7 and the vacuum frequency coil 4 and the polarized coil 5 and the output coil 3 successively through the magnetic field, and the electric energy pole of the permanent magnet magnetic strength in the coil The vacuum magnetic energy density energy supplements the single-polarization data energy usage, so as to compensate the space single-polarization data energy usage.

The present invention is not limited to the above-mentioned best implementation mode, anyone can draw other various forms of products under the inspiration of the present invention, but no matter make any changes in its shape or structure, all those with the same or similar features as the present application Approximate technical solutions all fall within the protection scope of the present invention.

Claims (6)

1. An energy differential, characterized in that it comprises: an output unit, comprising an output frame and a polarized coil and a vacuum frequency coil arranged on the output frame, the iron core of the polarized coil and the vacuum frequency coil It is a permanent magnet hollow iron body, and the polarized coil handles the current passing through the vacuum frequency coil to convert the electric energy to the output coil; the output unit includes an output coil, an induction coil and an input coil, and the input coil And the iron cores of the output coil and the induction coil are permanent magnets, and the energy of the induction coil is supplied to the output coil and components for use with induced electric energy. 2. The energy differential according to claim 1, wherein the output frame is provided with an input coil, the output frame is configured as a square frame, the input coil positively polarizes electric energy, and the input coil is opposite to Set on the edge of the first induction coil, in the changing magnetic field of the induction coil and vacuum frequency coil and polarizing coil. 3. The energy differential according to claim 2, characterized in that, the output frame is also provided with a polarized coil, and the change of the polarized coil depends on the change of the vacuum frequency coil, the output coil and the input coil. First, the polarizing coil is positioned relative to the edge of the vacuum frequency coil, in the changing magnetic field of the vacuum frequency coil and the induction coil. 4. The energy differential according to claim 2 or 3, characterized in that, the output frame is also provided with an induction coil, the change of the induction coil comes from the change of the vacuum frequency coil and the polarization coil, The induction coils are positioned relative to the edges of the output and input coils, in the changing magnetic fields of the output and input coils and the vacuum frequency and polarizing coils. 5. The energy differential according to claim 2 or 3 or 4, characterized in that, the output frame is also provided with a vacuum frequency coil, and the change of the vacuum frequency coil is between the input coil and the output coil and the polarization The vacuum frequency coil is arranged symmetrically with respect to the polarizing coil, and is located in the changing magnetic field of the input coil and the polarizing coil and the output coil and the induction coil. 6. The energy differential according to claim 2 or 3 or 4 or 5, characterized in that, the output frame is also provided with an output coil, the change of the output coil is between the induction coil and the vacuum frequency coil and pole From a variation of the polarizing coil, the output coil is positioned relative to the edge of the induction coil, in the vacuum frequency coil and in the changing magnetic field of the induction coil and the polarizing coil.