阅读说明：本技术 高压气体发电机 (High-pressure gas generator ) 是由 不公告发明人 于 2021-08-21 设计创作，主要内容包括：本发明公开一种高压气体发电机,是一种高压气体能源发电机,解决用高压气体做能源的发电技术问题。技术方案为方形基座(7.1)上设置有自动控制喷气阀(7.2),用固定螺钉(7.3)固定的中隔板(7.10),上盖板(7.4),悬浮中轴(7.5),用固定螺钉固定的发电线圈安装板(7.7)、安放有发电线圈(7.6),固定在悬浮中轴上的永磁体安装板(7.9)、安放有扇形永磁体(7.8),固定在悬浮中轴上的惯性喷气飞轮(7.12)、内设有喷气道(7.11)、底部装有立方永磁体(7.13),方形基座底部安置有圆形永磁体(7.14)。本发明的设备可应用于高压气体做能源发电,效能高,无排放污染,有效保护环境。(The invention discloses a high-pressure gas generator, which is a high-pressure gas energy generator and solves the technical problem of power generation by using high-pressure gas as energy. The technical scheme includes that an automatic control air injection valve (7.2) is arranged on a square base (7.1), a middle partition plate (7.10) fixed by a fixing screw (7.3), an upper cover plate (7.4), a suspension middle shaft (7.5), a generating coil mounting plate (7.7) fixed by the fixing screw, a generating coil (7.6) arranged, a permanent magnet mounting plate (7.9) fixed on the suspension middle shaft, a fan-shaped permanent magnet (7.8) arranged, an inertial air injection flywheel (7.12) fixed on the suspension middle shaft, an air injection channel (7.11) arranged in the inertial air injection flywheel, a cubic permanent magnet (7.13) arranged at the bottom, and a circular permanent magnet (7.14) arranged at the bottom of the square base. The equipment can be applied to high-pressure gas as energy for power generation, has high efficiency, does not have emission pollution, and effectively protects the environment.)

1. A high-pressure gas generator is characterized in that: the structure is that an automatic control air injection valve (7.2) is arranged on a square base (7.1), an upper cover plate (7.4), a generating coil mounting plate (7.7), a permanent magnet mounting plate (7.9) and a middle partition plate (7.10) are fixed in the square base by fixing screws (7.3) in sequence, a suspension center shaft (7.5) is also arranged in the inner cavity of the square base, a generating coil (7.6) is arranged on the generating coil mounting plate (7.7) in the inner cavity of the square base, a sector permanent magnet (7.8) is arranged on the permanent magnet mounting plate (7.9) fixed on the suspension center shaft, an air injection channel (7.11) is arranged in an inertial air injection flywheel (7.12) fixed on the suspension center shaft, and a cubic permanent magnet (7.13) is arranged at the inner bottom of the inertial air injection flywheel (7.12); the bottom of the square base (7.1) is provided with a round permanent magnet (7.14).

2. The high pressure gas generator of claim 1, wherein: the inertial jet flywheel (7.12) is in a round table shape, four symmetrical jet channels (7.11) are arranged in the inertial jet flywheel, an air inlet is arranged at the upper part, a jet port is arranged at the lower part, the jet channels are designed to have a Laval nozzle effect, and grooves for symmetrically placing the cubic permanent magnets (7.13) are arranged at the bottom.

3. A high pressure gas generator as claimed in claim 1 or 2, wherein: the number of the air channels (7.11) is more than four, such as six, eight and ten, and the air channels are required to be symmetrically arranged.

4. The high pressure gas generator of claim 1, wherein: a power generation coil mounting plate (7.7) fixed on the inner cavity of the square base by a fixing screw, and a power generation coil (7.6) is arranged on the power generation coil mounting plate, wherein the power generation coil can be divided into a plurality of layers, such as one layer, two layers, three layers, four layers, five layers and more than ten layers; the permanent magnet mounting plate (7.9) fixed on the suspension center shaft is provided with a fan-shaped permanent magnet (7.8) which can be provided with a plurality of layers, such as one layer, two layers, three layers, four layers, five layers and more than ten layers.

5. The high pressure gas generator of claim 1, wherein: the automatic control air injection valve (7.2) positioned on the side surface of the square base (7.1) and the air injection channel (7.11) are designed correspondingly, namely, the equivalent automatic control air injection valves are arranged on a plurality of air injection channels, and an induction system is arranged to automatically realize opposite air injection.

Technical Field

The invention discloses a generator, in particular to a high-pressure gas generator.

Background

Electromagnetic induction was discovered by faraday in 1831. In 1832, the French Pikexi invented a hand-operated DC generator, and therefore, the generator technology entered into long-term innovation progress.

The power generation depends on the relevant energy sources. Therefore, wind power generation, hydroelectric power generation, geothermal power generation, tidal power generation, solar power generation, nuclear power generation, petrochemical energy power generation, hydrogen power generation and the like appear in sequence, and related patent technologies are numerous, have innovation and salient points and cannot be commented one by one.

In addition, the generator with different structures can be matched with the generator with different energy sources for power generation, which is the most wonderful performance stage of industrial technological innovation. Such as water turbines, wind turbines, steam turbines, gas turbines, internal combustion engines, jet engines, etc., are emerging, but are still in constant innovation.

The inventor once proposed and applied for a magnetic suspension inertial flywheel high-pressure gas energy generator (application number is CN 201210144003.3) in 2012, and the efficiency is not high enough by adopting an impulse principle, so that the application is greatly improved. Most of the inventions are obtained by standing on the arms of predecessors, and without such accumulation and collision, we have no colorful industrial technical result today.

The invention comprises air injection work on the basis of impulse, thereby generating good efficiency improvement, meeting the condition of commercial application, being expected to be popularized and used, and making substantial contribution to the reduction of carbon emission in China.

Disclosure of Invention

The invention aims to provide a high-pressure gas generator which takes high-pressure air as energy.

The technical scheme for realizing the invention is as follows:

a high-pressure gas generator is structurally characterized in that an automatic control air injection valve is arranged on a square base, an upper cover plate, a generating coil mounting plate, a permanent magnet mounting plate and a middle partition plate are sequentially fixed in the square base through fixing screws, a suspension center shaft is further arranged in an inner cavity of the square base, a generating coil is arranged on the generating coil mounting plate in the inner cavity of the square base, a fan-shaped permanent magnet is arranged on the permanent magnet mounting plate fixed on the suspension center shaft, an air injection channel is arranged in an inertial air injection flywheel fixed on the suspension center shaft, and a cubic permanent magnet is arranged at the bottom in the inertial air injection flywheel; the bottom of the square base is provided with a round permanent magnet.

The inertial jet flywheel is in a round table shape, four symmetrical jet channels are arranged in the inertial jet flywheel, an air inlet is arranged at the upper part, a jet port is arranged at the lower part, the jet channels are designed to have a Laval nozzle effect, grooves for symmetrically placing the cubic permanent magnets are arranged at the bottom, and more than four jet channels, such as six, eight and ten jet channels, can be symmetrically arranged.

The generating coil mounting plate is fixed on the inner cavity of the square base by fixing screws, and the generating coils are arranged on the generating coil mounting plate and can be arranged into a plurality of layers, such as one layer, two layers, three layers, four layers, five layers and more than ten layers; the permanent magnet mounting plate fixed on the suspension center shaft is provided with fan-shaped permanent magnets, and can be provided with a plurality of layers, such as one layer, two layers, three layers, four layers, five layers and more than ten layers.

The automatic control air injection valve and the air injection channel are designed correspondingly, namely, the equivalent automatic control air injection valve is arranged for a plurality of air injection channels, and an induction system is arranged to realize automatic opposite air injection.

The invention has the beneficial effects that: the intermediate rotor realizes hard magnetic suspension, namely buoyancy is generated by the principle that like poles of permanent magnet materials repel, so that the problem of large frictional resistance is solved; high-pressure gas is used as energy, and the work can be done externally when the pressure is higher than atmospheric normal pressure, so that no pollution and zero emission are really realized; the high-pressure gas energy is automatically controlled to be sprayed and intermittently released, the high-pressure gas energy not only applies work by impulse, but also applies work by spraying, the efficiency tends to be maximized, and the commercial requirement is met; the whole structure is simple and easy to implement, the power is convenient to adjust, and the power-adjustable electric vehicle can be designed, arranged and used according to actual conditions.

Drawings

FIG. 1 is a schematic cross-sectional view of the main structure of the present invention;

FIG. 2 is a front view of the inertial jet flywheel of the present invention;

FIG. 3 is a bottom view of the inertial jet flywheel of the present invention.

In the figure: 7.1 is a square base, 7.2 is an automatic control air injection valve, 7.3 is a fixing screw, 7.4 is an upper cover plate, 7.5 is a suspension center shaft, 7.6 is a generating coil, 7.7 is a generating coil mounting plate, 7.8 is a fan-shaped permanent magnet, 7.9 is a permanent magnet mounting plate, 7.10 is a middle clapboard, 7.11 is an air injection channel, 7.12 is an inertia air injection flywheel, 7.13 is a cubic permanent magnet, and 7.14 is a circular permanent magnet.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the examples without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): a high pressure gas generator.

The structure of the air injection device is that an automatic control air injection valve 7.2, a middle partition plate 7.10 fixed on an inner cavity of a square base by a fixing screw 7.3, an upper cover plate 7.4, a suspension middle shaft 7.5, a power generation coil mounting plate 7.7 fixed on the inner cavity of the square base by a fixing screw, a power generation coil 7.6 arranged on the upper surface, a permanent magnet mounting plate 7.9 fixed on the suspension middle shaft, a fan-shaped permanent magnet 7.8 arranged on the upper surface, an inertia air injection flywheel 7.12 fixed on the suspension middle shaft, an air injection channel 7.11 arranged in the air injection channel, a cubic permanent magnet 7.13 arranged at the bottom and a round permanent magnet 7.14 arranged at the bottom of the square base are sequentially arranged.

The inertial jet flywheel 7.12 is in a round table shape, eight symmetrical jet channels 7.11 are arranged in the inertial jet flywheel, an air inlet is arranged at the upper part, a jet port is arranged at the lower part, the jet channels are designed to have a Laval nozzle effect, and grooves for symmetrically placing the cubic permanent magnets are arranged at the bottom. And five layers of generating coils 7.6 are arranged on the five layers of generating coil mounting plates 7.7 fixed on the inner cavity of the square base by fixing screws. Four layers of permanent magnet mounting plates 7.9 fixed on the suspension center shaft, and four layers of sector permanent magnets 7.8 are arranged on the four layers of permanent magnet mounting plates.

The automatic control air injection valve 7.2 and the air injection channel 7.11 are correspondingly designed, namely four equal automatic control air injection valves are arranged on four air injection channels, and an induction control system is arranged to realize automatic opposite air injection.

The induction control system is the prior art, and can be realized by making corresponding design application according to the requirement.

The output power of the generator can be designed according to specific conditions, meets and meets commercial application standards, and provides power for the outside.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.