CN110198086A

CN110198086A - A kind of transmission data converter

Info

Publication number: CN110198086A
Application number: CN201910581748.8A
Authority: CN
Inventors: 杨培应
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-06-30
Filing date: 2019-06-30
Publication date: 2019-09-03

Abstract

The present invention relates to a kind of transmission data converters.Comprising: output unit, including output framework and the induction coil and vacuum frequency coil that are set on the output framework, the iron core of the induction coil and vacuum frequency coil is permanent magnet cored iron body, vacuum frequency coil handles electric current by flowing through the induction coil, and the electric energy is converted to the output winding；The iron core of output unit, including output winding and resistance and input coil, the output winding and input coil is permanent magnet, and the energy of the resistance is used with induction electric energy supply output winding and supply component.The invention has the benefit that this transmission data converter is when in use, for being used with the magnetic energy cross-sectional area density energy source processing data energy, reach point and the use of 1 energy source of Binary Zero.

Description

A kind of transmission data converter

Technical field

The invention belongs to electronic technology fields, and in particular to a kind of transmission data converter.

Background technique

The present invention is state-of-the-art technology, is mainly used for being used with the magnetic energy cross-sectional area decomposition binary data energy and space passes Defeated 1 energy system of Binary Zero variation uses.

Summary of the invention

In order to reach the best use effect for decomposing the variation of 1 energy of Binary Zero, the present invention provides a kind of transmission data to turn Parallel operation uses this transmission data converter, for decomposing the use of the binary data energy and space propagation with magnetic energy cross-sectional area The variation of 1 energy system of Binary Zero uses.

The technical scheme adopted by the invention is as follows:

The present invention relates to a kind of transmission data converters.Comprising: output unit, including output framework and it is set to the output The iron core of induction coil and vacuum frequency coil on frame, the induction coil and vacuum frequency coil is permanent magnet cored iron Body, vacuum frequency coil handles electric current by flowing through the induction coil, and the electric energy is converted to the output winding；It is defeated The iron core of unit out, including output winding and resistance and input coil, the output winding and input coil is permanent magnet, described The energy of resistance is used with induction electric energy supply output winding and supply component.

Preferably, input coil is provided on the output framework, the output framework is configured to square frame, described defeated Enter variation of the variation in induction coil and output winding of coil, the input coil is relative to vacuum frequency coil edge Setting, in the variation magnetic field of induction coil and vacuum frequency coil.

Preferably, be additionally provided with induction coil on the reception frame, the variation of the induction coil in input coil and The variation of vacuum frequency coil and output winding, the induction coil are set relative to resistance and vacuum frequency coil edge It sets, in the variation magnetic field of vacuum frequency coil.

Preferably, resistance is additionally provided on the output framework, the variation of the resistance is in output winding and induction coil Variation, the resistance relative to output winding edge be arranged, in the variation magnetic field of induction coil and output winding.

Preferably, vacuum frequency coil is additionally provided on the output framework, the variation of the vacuum frequency coil is defeated The variation of coil and induction coil and input coil out, the vacuum frequency coil are arranged relative to input coil edge, In the variation magnetic field of input coil and output winding and induction coil.

Preferably, output winding is additionally provided on the output framework, the variation of the output winding is in vacuum frequency line The variation of circle and induction coil, the output winding are arranged relative to resistive edge, are located at vacuum frequency coil and induction In the variation magnetic field of coil.

Preferably, be additionally provided with permanent magnet on the output framework, the variation of the permanent magnet in vacuum frequency coil and The variation of output winding and induction coil, the permanent magnet are located at vacuum frequency relative to being set side by side inside output framework In the variation magnetic field of rate coil and output winding and induction coil.

The invention has the benefit that this transmission data converter is when in use, for using magnetic energy cross-sectional area density The energy handles the data energy and uses, and reaches point and the use of 1 energy source of Binary Zero.

Detailed description of the invention

Fig. 1 is the schematic diagram of the transmission data converter of a preferred embodiment of the present invention.

In figure: 1, bracket；2, input coil；3, output winding；4, vacuum frequency coil；5, induction coil；6, resistance；7, Permanent magnet.

Specific embodiment

As shown in Figure 1, transmission data converter provided by the invention comprising, output unit.It will be described in detail below Transmission data converter of the invention and its various pieces.

As shown in Figure 1, output unit includes output framework 1 and the input coil 2 and the line of induction that are set on output framework 1 Circle 5 and vacuum frequency coil 4 and resistance 6 and output winding 3 are mutually juxtaposed, and the energy that input coil 2 inputs flows through vacuum frequency Data energy conversion is handled combination of transmitted to output winding 3 by coil 4 and induction coil 5 and resistance 6.

As first preferred embodiment of output unit, as shown in Figure 1, input coil 2 is provided on output framework 1, The output framework 1 is configured to square frame, the variation of the input coil 2 induction coil 5 and output winding 3 variation and Come, the input coil 2 is arranged relative to 4 edge of vacuum frequency coil, positioned at the change of induction coil 5 and vacuum frequency coil 4 In magnetizing field.

Second preferred embodiment is on the basis of first preferred embodiment, as shown in Figure 1, on output framework 1 also It is provided with variation of the variation in input coil 2 and vacuum frequency coil 4 and output winding 3 of induction coil 5 described in induction coil 5 , the induction coil 5 is arranged relative to resistance 6 and 4 edge of vacuum frequency coil, positioned at the variation of vacuum frequency coil 4 In magnetic field.

Third preferred embodiment is on the basis of second preferred embodiment, as shown in Figure 1, on output framework 1 also It is provided with resistance 6, the variation of the resistance 6 is in the variation of output winding 3 and induction coil 5, and the resistance 6 is relative to defeated 3 edge of coil is arranged out, in the variation magnetic field of induction coil 5 and output winding 3.

4th preferred embodiment is on the basis of third preferred embodiment, as shown in Figure 1, on output framework 1 also It is provided with vacuum frequency coil 4, the variation of the vacuum frequency coil 4 is in output winding 3 and induction coil 5 and input coil 2 Variation, the vacuum frequency coil 4 relative to 2 edge of input coil be arranged, be located at input coil 2 and output winding 3 In the variation magnetic field of induction coil 5.

5th preferred embodiment is on the basis of the 4th preferred embodiment, as shown in Figure 1, on output framework 1 also Be provided with output winding 3, the variation of the output winding 3 vacuum frequency coil 4 and induction coil 5 variation, it is described Output winding 3 is arranged relative to 6 edge of resistance, in the variation magnetic field of vacuum frequency coil 4 and induction coil 5.

6th preferred embodiment is on the basis of the 5th preferred embodiment, as shown in Figure 1, on output framework 1 also Be provided with permanent magnet 7, the variation of the permanent magnet 7 vacuum frequency coil 4 and output winding 3 and induction coil 5 variation and Come, the permanent magnet 7 is located at vacuum frequency coil 4 and output winding 3 and induction relative to being set side by side inside output framework 1 In the variation magnetic field of coil 5.

The working principle as the transmission data converter of the 6th preferred embodiment can refer to as follows as a result:

When 2 input energy sources of input coil, thus there are changing magnetic fields for 2 surrounding of input coil, are arranged by input coil 2 true Around null tone rate coil 4, so generating corresponding induced current in the coil of vacuum frequency coil 4.Similarly, input coil The energy of 2 inputs is by magnetic field successively from vacuum frequency coil 4 and induction coil 5 and resistance 6 and 3 maintenance data energy of output winding Permanent magnet magnetic intensity is used to be used with the magnetic energy cross-sectional area density energy source processing data energy in source and electric energy and coil, reaches It is used to point with 1 energy source of Binary Zero.

The present invention is not limited to above-mentioned preferred forms, anyone can show that other are various under the inspiration of the present invention The product of form, however, make any variation in its shape or structure, it is all that there is skill identical or similar to the present application Art scheme, is within the scope of the present invention.

Claims

1. a kind of transmission data converter characterized by comprising output unit, including output framework and be set to it is described defeated The iron core of induction coil on frame and vacuum frequency coil out, the induction coil and vacuum frequency coil is that permanent magnet is hollow Iron body, vacuum frequency coil handles electric current by flowing through the induction coil, and the electric energy is converted to the output winding； The iron core of output unit, including output winding and resistance and input coil, the output winding and input coil is permanent magnet, institute The energy of resistance is stated to use with induction electric energy supply output winding and supply component.

2. transmission data converter according to claim 1, which is characterized in that be provided with input line on the output framework Circle, the output framework are configured to square frame, the variation of the input coil induction coil and output winding variation and Come, the input coil is arranged relative to vacuum frequency coil edge, positioned at the variation magnetic of induction coil and vacuum frequency coil In.

3. transmission data converter according to claim 2, which is characterized in that be additionally provided with induction on the output framework Coil, variation of the variation of the induction coil in input coil and vacuum frequency coil and output winding, the induction Coil is arranged relative to resistance and vacuum frequency coil edge, in the variation magnetic field of vacuum frequency coil.

4. transmission data converter according to claim 2 or 3, which is characterized in that be additionally provided on the output framework Resistance, the variation of the resistance is in the variation of output winding and induction coil, and the resistance is relative to output winding edge Setting, in the variation magnetic field of induction coil and output winding.

5. according to transmission data converter described in Claims 2 or 3 or 4, which is characterized in that also set up on the output framework Have a vacuum frequency coil, the variation of the vacuum frequency coil output winding and induction coil and input coil variation and Come, the vacuum frequency coil is arranged relative to input coil edge, positioned at input coil and output winding and induction coil In variation magnetic field.

6. according to transmission data converter described in Claims 2 or 3 or 4 or 5, which is characterized in that on the output framework also It is provided with output winding, variation of the variation of the output winding in vacuum frequency coil and induction coil, the output Coil is arranged relative to resistive edge, in the variation magnetic field of vacuum frequency coil and induction coil.