阅读说明：本技术 一种复合转成电态效应闭环气电容流体发电机 (Composite-to-electric-effect closed-loop gas-capacitor fluid generator ) 是由 李启山 李容毅 于 2020-03-23 设计创作，主要内容包括：本发明在流体或称等离子体发电技术领域公开了一种复合转成电态效应闭环气电容流体发电机。其特征在于：以研发的气固复合隐蔽电容材料,利用研发的闭环气电容流体发电装置,通过高电势能激发其中气态材料复合激发电活跃性不同的固体粉末形成气隐蔽电容,则在闭环通道内经轴流风机的驱使,向与正极板和负极板电路联通的负载放电来应用所获得的电态能量,由此所提供的复合转成电态效应闭环气电容流体发电机。其创新性在于：利用低热易电激发的气体作为闭环流动的载体,通过复合转成电态效应获得电态能量,将流体发电机的研制集中在了直接对材料原子能的合理利用,相应要降低成本,提高制品的实用性和使用寿命。(The invention discloses a closed-loop gas-capacitance fluid generator capable of converting compound into electric state effect in the technical field of fluid or plasma power generation. The method is characterized in that: the developed gas-solid composite hidden capacitor material is utilized, the developed closed-loop gas capacitor fluid power generation device is utilized, solid powder with different activities of the gas material composite excited power generation is excited through high potential energy to form a gas hidden capacitor, the obtained electrical energy is applied by discharging to a load communicated with the positive plate and the negative plate circuit through the driving of an axial flow fan in a closed-loop channel, and the provided composite is converted into an electrical effect closed-loop gas capacitor fluid power generator. The innovation is that: the gas which is low in heat and easy to electrically excite is used as a carrier for closed-loop flow, the electric energy is obtained by converting the low-heat gas into the electric effect, the development of a fluid generator is focused on the direct reasonable utilization of the material atomic energy, the cost is correspondingly reduced, the practicability of the product is improved, and the service life of the product is prolonged.)

1. A composite-to-electric effect closed-loop gas-capacitor fluid generator is characterized in that: the developed gas-solid composite hidden capacitance material (AA) is utilized, a developed closed-loop gas-capacitance fluid power generation device (A) is utilized, a high-potential energy exciter (A4) excites gaseous materials in the material, axes of atomic magnetic field bases of the material are arranged in parallel to form a gas-lightning state to excite solid powder with different electrical activities compounded together to form a gas hidden capacitance (D), the obtained electrical state energy is discharged to a load (R) communicated with circuits of a positive plate (A22) and a negative plate (A1) through a positive connecting terminal (A23) and a negative connecting terminal (A14) in a closed-loop channel (AU) through an axial flow fan (A21) to be applied, and the provided composite is converted into an electrical state effect closed-loop gas-capacitance fluid power generator.

2. A composite-to-electric effect closed-loop gas-capacitor fluid generator according to claim 1, relating to a closed-loop gas-capacitor fluid power generation device (a), characterized in that: the closed-loop channel (AU) and an outer barrel (A9) of the axial flow fan are butted and fixed through an inlet flange interface (A8) by utilizing a first bolt (A7), a cut-off channel butterfly valve (A19), an exhaust butterfly valve (A18) and an air transmission ball valve (A29) are installed in the middle of an outlet flange interface (A15) butt-joint inclined pipe (A16) of the closed-loop channel (AU) and communicated to the bottom of the axial flow fan (A21), a motor fixing plate (A10) fixed on a bracket (A17) is used for fixing a motor (A12) through a second bolt (A11), the motor (A12) drives a pulley (A13) to drive the axial flow fan (A21) to rotate, the easily electrically excited gas sent into the closed-loop channel (AU) by the air transmission ball valve (A29) and the solid powder with different electric gas and solid powder sent into the closed-loop channel (AU) by a feed hopper (A5) can be actively mixed to form a composite capacitance material (AA) flowing in the closed-loop channel (AU, a high-potential energy (high-voltage) exciter (A4) is sealed and fixed on an outer ring wall (AU2) and an inner ring wall (AU3) at the position B of a U-shaped channel (AU1) made of glass fiber reinforced plastic on the closed-loop channel (AU) by using a first lead screw (A6), an exciting positive plate (A25) is sealed and fixed on the outer ring wall (AU2) and the inner ring wall (AU3) of the U-shaped channel (AU1) corresponding to the high-potential energy exciter (A4), an exciting positive terminal block (A24) is arranged on the exciting positive plate (A25), a circuit of the high-potential energy exciter (A4) is separated from the inner ring wall (AU1) by a separating plate (A3), a second lead screw (A2) is used, a negative plate (A14A) is arranged on the outer ring wall (AU2) and the inner ring wall (AU3), a positive electrode plate (A22) is fixed corresponding to a negative electrode plate (A1) in a sealing way, a positive electrode connecting terminal (A23) is arranged on the positive electrode plate (A22) and is connected with a positive connecting terminal and a negative connecting terminal to be connected with a load (R), when the device operates, a cut-off channel butterfly valve (A19) is closed, an exhaust butterfly valve (A18) is opened, an axial flow fan (A21) is started, gas in a closed-loop channel (AU) is exhausted, simultaneously, easy electric excitation gas is supplied into the closed-loop channel (AU) by an air delivery ball valve (A29), after the gas is supplied, the cut-off channel butterfly valve (A19) is opened while the exhaust butterfly valve (A18) is closed, then, the axial flow fan (A21) is preferably used for driving all the devices to be suspended, different solid powder with electric activity is delivered into the closed-loop channel (AU) by a supply hopper (A5), and the easy electric excitation gas and solid, then the power supply of the high potential energy exciter (A4) is switched on, the potential energy applied by the potential energy exciting negative electrode (A28) arranged on the sealed polar seat (A27) screwed in the base (A26) passes through the easy electric exciting gas flowing between the exciting positive electrode plate (A25), the easy electric exciting gas becomes a composite electric conductor, then the composite excitation is carried out on the solid powder, a butted gas hidden capacitor (D) formed by parallel arrangement of the axes of the high potential particle group (D2) and the low potential particle group (D3) magnetic field groups is formed on two sides of the dielectric medium of the large-size gas electric state atomic magnetic field base rotating wheel (D1), namely, the motion speed of the excited hidden capacitor material (AA) is higher relative to the electric potential energy region in the composite conversion into the electric state effect between the electric potential energy exciting negative electrode (A28) and the exciting positive electrode plate (A25) of the high potential energy exciter (A4), the higher the electric state energy of the excited state obtained by the gas-shielded capacitor (D), thereby the closed-loop gas-capacitor fluid power generation device is provided.

3. The composite-to-electric effect closed-loop gas-capacitor fluid generator as claimed in claim 1, wherein the gas-solid composite hidden capacitor material (AA) is characterized in that: mixing micron-order or nanometer-order granular carbon and any corrosion-resistant conductive particles or particles made of radioactive materials according to the proportion of 1: 1, adding a proper amount of insulating electric powder with a suspension function to prepare solid powder with different electric activities, in use, conveying easy-to-excite gas such as inert gas such as neon, hernia or argon and odor or nitrogen into a closed-loop channel (AU) by using an air conveying ball valve (A19) arranged on a closed-loop air capacitance fluid power generation device (A), conveying solid powder with different electric activities into the closed-loop channel (AU) by using a supply hopper (A5), and forming gas-solid composite hidden capacitance materials (AA) formed by mixing the high-potential energy (high voltage) and the low-potential energy (D1) on two sides of a dielectric medium of a large-size gas-electric-state atomic magnetic field-based rotating wheel (D1), wherein the axes of high-potential energy (D2) and low-potential energy (D3) magnetic field bases are arranged in parallel to be butted with each other Gas-forming covert capacitor (D), thereby providing a gas-solid composite covert capacitor material.

4. The power generation principle of the composite-to-electric effect closed-loop gas-capacitance fluid power generator related to claim 1 is characterized in that: the closed-loop gas-electric capacity fluid power generation device (A) is utilized to enable a gas-solid composite hidden capacity material (AA) to flow in a closed loop channel (AU) in a closed loop mode, when the electric potential of a high-electric potential exciter A4 excites the easy electric excitation gas, high-potential particle groups (D2) and low-potential particle groups (D3) are formed on two sides of a dielectric medium of a large-size gas-electric state atomic magnetic field base rotating wheel (D1) and are arranged in parallel to form a gas hidden capacity (D) by butting the axes of the magnetic field bases of the high-potential particle groups (D3), namely, the high-potential excitation negative electrode (A28) and an excitation positive electrode plate (A25) are compounded into the electric state effect, so that the excited composite hidden capacity (D) is compounded to obtain the electric state energy when the moving speed of a high-potential excitation work area is higher, the provided composite conversion is an electric effect closed loop gas capacitance fluid generator power generation principle.

Technical Field

The invention discloses a closed-loop gas-capacitance fluid generator capable of converting compound into electric state effect in the technical field of fluid or plasma power generation.

Background

Disclosure of Invention

The invention discloses a composite-to-electric effect closed-loop gas-capacitor fluid generator, which aims to: the developed gas-solid composite hidden capacitance material is utilized to excite the gaseous material in the developed closed-loop gas-capacitance fluid power generation device through high electric potential energy, the axes of atomic magnetic field bases of the gaseous material are arranged in parallel to form a gas-lightning state to excite the compounded solid powder with different electric activities to form a gas hidden capacitance, and the obtained electric energy is discharged to a load communicated with circuits of a positive plate and a negative plate in a closed-loop channel through the driving of an axial flow fan to apply the obtained electric energy, so that the characteristic composite converted into the electric effect closed-loop gas-capacitance fluid power generator is provided.

The invention discloses a composite-to-electric-effect closed-loop gas-capacitor fluid generator, which is innovative in that: the technical defect that a fluid generator uses high-temperature plasma at thousands of degrees centigrade in the prior art is overcome, low-heat easy-to-electrically excited gas is used as a carrier for closed-loop flow, electric energy is obtained by compounding and converting the low-heat easy-to-electrically excited gas into an electric effect, the fluid generator is developed and focused on the direct reasonable utilization of material atomic energy, the cost is correspondingly reduced, and the practicability and the service life of a product are improved.

Drawings

FIG. 1 is a schematic structural design diagram of a closed-loop gas-capacitor fluid power generation device according to an embodiment of a composite-to-electric-effect closed-loop gas-capacitor fluid power generator disclosed by the invention;

FIG. 2 is a schematic diagram of a closed-loop channel structure involved in an embodiment of a composite-to-electric-effect closed-loop gas-capacitor fluid generator disclosed by the present invention;

FIG. 3 is a schematic view of the section A-A of FIG. 3;

FIG. 4 is a schematic diagram of a U-shaped channel frame used in a closed-loop channel involved in an embodiment of a composite-to-electric-effect closed-loop gas-capacitor fluid generator disclosed in the present invention;

FIG. 5 is a schematic view of a gas-hidden capacitor involved in an embodiment of a composite-to-electric-effect closed-loop gas-capacitor fluid generator disclosed in the present invention

Detailed Description

Referring to the attached figures 1, 2, 3, 4 and 5, the invention discloses a composite-to-electric effect closed-loop gas-capacitor fluid generator, which is characterized in that: the developed gas-solid composite hidden capacitor material AA is utilized, the developed closed-loop gas-capacitor fluid power generation device A is utilized, a high-potential energy exciter A4 is used for exciting gaseous materials in the material, axes of atomic magnetic field bases of the gaseous materials are arranged in parallel to form a gas-lightning state to excite solid powder with different electrical activities compounded together to form a gas hidden capacitor D, and the obtained electrical state energy is discharged to a load R communicated with a positive plate A22 circuit and a negative plate A1 circuit through a positive connecting terminal A23 and a negative connecting terminal A14 through the driving of an axial flow fan A21 in a closed-loop channel AU to be applied, so that the provided composite is converted into an electrical state effect closed-loop gas-capacitor fluid power generator.

Wherein, closed loop gas capacitance fluid power generation facility A that involves, characterized by: a closed-loop channel AU and an axial flow fan outer barrel A9 are butted and fixed through an inlet flange interface A8 by utilizing a first bolt A7, a stop channel butterfly valve A19, an exhaust butterfly valve A18 and an air delivery ball valve A29 are installed in the middle of an outlet flange interface A15 butted inclined tube A16 of the closed-loop channel AU and communicated to the bottom of an axial flow fan A21, a motor fixing plate A10 fixed on a support A17 is fixed through a second bolt A11, a belt pulley A13 is driven by the motor A12 to drive the axial flow fan A21 to rotate, the gas easy-electricity excitation gas sent into the closed-loop channel AU by the air delivery ball valve A29 and the solid powder which is different in electricity activity and is sent into the closed-loop channel AU by a hopper A5 are mixed to form a gas-solid composite capacitance material AA which is closed-solid composite capacitance material AA and flows in a closed-loop channel AU by a closed-loop channel AU, and a first screw A5 is used for manufacturing an outer ring glass material on the closed-loop channel AU, and the position of an outer ring channel AU2 and the position A4 of high potential energy exciter A7378 is fixed on the annular wall AU3 in a sealing manner, corresponding to the exciter A4 of high potential energy, an exciter plate A25 is fixed on the outer annular wall AU2 and the inner annular wall AU3 of the U-shaped channel AU1 in a sealing manner, an exciter positive terminal A24 is arranged on the exciter positive plate A25, a circuit of the high potential energy exciter A4 is separated from the U-shaped channel AU1 through a partition plate A3, a negative terminal A1 is fixed on the outer annular wall AU2 and the inner annular wall AU3 in a sealing manner by using a second lead screw A2, a negative terminal A14 is arranged on the negative plate A1, a positive terminal A23 is arranged on the positive plate A22 in a sealing manner to connect a positive and negative terminal with a load R, when the axial flow exciter works, a butterfly valve cut-off channel A19 is closed, an exhaust A18 is opened, a butterfly valve A21 is started, gas in the closed-loop channel AU 21 is exhausted, supplying easy-to-excite gas into the closed-loop channel AU by gas-conveying ball valve A29, after sufficient supply, closing exhaust butterfly valve A18 and opening cut-off channel butterfly valve A19, then using axial-flow fan A21 to drive all the gas to be suspended, using supply hopper A5 to convey different solid powder with electric activity into the closed-loop channel AU, making the easy-to-excite gas and solid powder added into the closed-loop channel AU into composite concealed capacitor material AA by gas-solid mixing, at this time switching on power supply of high-electric potential energy exciter A4, making the electric potential energy applied by electric potential energy exciting negative pole A28 screwed on the sealing polar seat A27 in the base A26 pass through the easy-to-excite gas flowing between exciting positive pole plates A25, making the easy-to-electric potential energy exciting gas into composite conductor, then making composite excitation on the solid powder, and forming magnetic field groups parallel to each other by high-electric potential particle group D2 and low-electric potential particle group D3 magnetic field group on two sides of dielectric medium of large-size atomic magnetic field group rotating wheel D1 The gas-shielded capacitor D is arranged and butted, namely, between the potential energy excitation negative electrode A28 and the excitation positive electrode plate A25 of the high potential energy exciter A4, in the process of compounding and converting the excited composite shielded capacitor material AA into an electric state effect, the higher the movement speed of a working area relative to the potential energy, the higher the electric state energy of the excited state obtained by the gas-shielded capacitor D, and thus the closed-loop gas-capacitor fluid power generation device is provided.

Wherein, the gas-solid composite hidden capacitance material AA that involves, its characterized in that: micron or nanometer carbon particles and any corrosion-resistant conductive particles or particles made of radioactive materials are mixed together according to the proportion of 1: 1, and a proper amount of insulating electric powder playing a role of suspension is added to prepare solid powder with different electric activities, in use, an air ball valve A19 arranged on a closed-loop air capacitance fluid power generation device A is utilized to convey easy-to-excite gas, such as inert gas like neon, hernia or argon and the like, odor or nitrogen and the like, a supply hopper A5 is utilized to convey solid powder with different electric activities to the closed-loop channel AU, the two mixed gas-solid composite hidden capacitance materials AA form a gas-solid composite hidden capacitance D formed by parallel arrangement of the axes of high-potential particle clusters D2 and low-potential particle clusters D3 magnetic field clusters on two sides of a dielectric medium of a large-size gas-electric state atomic magnetic field based runner D1 when the easy-to-excite the easy-to-excite gas and electric capacitance material AA, the gas-solid composite hidden capacitor material is provided.

Wherein, the electricity generation principle of the compound conversion into electric state effect closed loop gas capacitance fluid generator that involves, its characterized in that: generating electricity, and finally converting the compound into an electric state effect caused by the closed-loop inertial motion effect of the atomic layer, therefore, by utilizing the closed-loop gas-capacitor fluid power generation device A, the gas-solid composite hidden capacitor material AA, the gas flows in a closed loop in the closed loop channel AU, when the high potential energy exciter A4 electric potential energy excites the easy electric excitation gas, will form a gas-shielded capacitor D formed by the parallel arrangement of the axes of the magnetic field bases of the high-potential particle group D2 and the low-potential particle group D3 on both sides of the dielectric medium of the large-size gas-electric atomic magnetic field base rotating wheel D1, namely, between the high-potential excitation negative electrode A28 and the excitation positive electrode plate A25, the composite state effect is formed by composite transition, so that the excited composite hidden capacitor D is formed, the higher the speed of motion in a high-potential energy acting area is, the obtained electrical state energy is compounded, and the provided compound is converted into the power generation principle of the electrical state effect closed-loop gas-capacitor fluid generator.

The invention discloses a composite-to-electric-effect closed-loop gas-capacitor fluid generator, which is innovative in that: the technical defect that a fluid generator uses high-temperature plasma at thousands of degrees centigrade in the prior art is overcome, low-heat easy-to-electrically excited gas is used as a carrier for closed-loop flow, electric energy is obtained by compounding and converting the low-heat easy-to-electrically excited gas into an electric effect, the fluid generator is developed and focused on the direct reasonable utilization of material atomic energy, the cost is correspondingly reduced, and the practicability and the service life of a product are improved.