WO2022082839A1

WO2022082839A1 - Engine for oil-free aerodynamic power generation

Info

Publication number: WO2022082839A1
Application number: PCT/CN2020/124811
Authority: WO
Inventors: 朱国钧
Original assignee: 朱国钧
Priority date: 2020-10-20
Filing date: 2020-10-29
Publication date: 2022-04-28
Also published as: CN112267954A

Abstract

Disclosed in the present invention is an engine for oil-free aerodynamic power generation, comprising a pre-stored aerodynamic force box. An air cylinder seat is fixedly mounted at one side of the pre-stored aerodynamic force box; four air cylinders are arranged on the air cylinder seat at equal intervals; exhaust holes are formed on the positions of the front surface of the air cylinder seat corresponding to the air cylinders; the exhaust holes are communicated with the internal portions of the air cylinders; and an air pressure speed-variable cylinder is fixedly mounted on the top of the air cylinder seat by means of bolts. Arranging an air pressure air supplementing device can ensure the supplementing of lost air caused by air circulation, thereby improving the air density per unit volume in the pre-stored aerodynamic force box, reducing the use of electric heating power, and improving the safety of heat energy. The unique air raw material can be repeatedly recycled, there is no carbon dioxide pollution, and there is no burning blast sound of a fuel engine, so that the engine of the present invention is quiet and stable, and thus, the present invention is suitable for being used in special environments such as underwater submarines, deep and far tunnels for power utilization or construction, and uninhabited islands and remote mountains, and is very wide in application range.

Description

Oil-free air power generator

technical field

The invention relates to a power generation engine, in particular to an oil-free air power generation engine.

Background technique

The vertical multi-cylinder oil-free air power generation engine, based on the complete elimination of the current fuel-powered engine's dependence and use of non-renewable energy, produces carbon dioxide, which is extremely harmful to the earth's atmosphere and human health. Therefore, how to solve this problem is a very urgent task.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide an oil-free aerodynamic power generation engine to solve the above-mentioned problems in the background art.

To achieve the above object, the present invention provides the following technical solutions:

The oil-free air power generator includes a pre-storage air power box, a cylinder seat is fixedly installed on one side of the pre-storage air power box, four cylinders are arranged on the cylinder seat at equal distances, and the front surface of the cylinder seat corresponds to the cylinder There is an exhaust hole at the position of the cylinder block, the air pressure transmission cylinder is fixedly installed on the top of the cylinder base by bolts, the outer side of the air pressure transmission cylinder is fixedly connected with an insulating layer, and the top of the cylinder base is located inside the air pressure transmission cylinder. A bracket, on which the first valve plug valve and the second valve plug valve are respectively rotated and installed through the connecting rod, the air intake size control box is fixedly installed on the top of the air pressure transmission cylinder, and the air intake size control box passes the high pressure The heat preservation pipeline is communicated with the inside of the air pressure shifting cylinder.

As a further solution of the present invention: the pre-storage air power box includes an air pressure control box, a vacuum insulation barrier, an inner box, an air pressure supplementary device, an outer box, an electric heating control box, and an exhaust return air inlet channel. and pre-stored air power output pipe port, the outer box is sleeved outside the inner box, the vacuum insulation barrier is arranged between the inner box and the outer box, the air pressure control box and the electric heating control The box is symmetrically installed on both sides of the outer box, and the air pressure supply device is fixedly installed on the top of the pre-stored air power box. The high-pressure heat preservation pipeline is communicated with the interior of the inner box, the electric heating control box is communicated with the interior of the inner box through the high-pressure heat preservation pipeline, and the pre-stored air power output pipeline port is opened on the top of the pre-stored air power box.

As a further scheme of the present invention: the exhaust gas return air intake holes are symmetrically opened on the front surface of the pre-storage air power box and there are two in total, and the exhaust holes are communicated with the inside of the exhaust gas return air intake holes.

As a further solution of the present invention: the outer surface of the pre-storage aerodynamic box is coated with a high-temperature thermal insulation coating.

As a further solution of the present invention: there are four exhaust holes in total.

As a further solution of the present invention: two adjacent cylinders are provided with two channels adapted to the first valve plug valve and the second valve plug valve, the first valve plug valve and the second valve plug valve It is located just above the two channels opened on the adjacent two cylinders.

As a further solution of the present invention, the pre-stored air power output pipeline port is communicated with the inside of the air intake size control box.

Compared with the prior art, the beneficial effects of the present invention are:

1. The installation of air pressure supplementary device can ensure the replenishment of air lost by air circulation, improve the air density per unit volume in the pre-stored air power box, reduce the use of electric heating and electricity, and improve thermal energy safety;

2. The present invention is designed with a pre-storage air power box, and the pre-storage air power box is provided with a vacuum thermal insulation layer and a high temperature thermal insulation coating layer, which prevents the internal electric heat from overflowing, and the effect is twice that of a general motor;

3. The present invention directly utilizes the exhaust explosive force of the cylinder to send the clean hot air without carbon dioxide back to the pre-storage air power box to realize the recycling of heat energy air recovery, which once again increases the superiority of the present invention. Greatly reduces the consumption of horsepower and increases the remaining horsepower;

4. The heat energy recovered by the present invention is expected to be greater than 50%;

5. The present invention does not have the old valve cover, fan, water tank and other power-consuming equipment, and at the same time reduces the volume and weight of the engine, which is also a proof of improving energy saving;

6. The pre-storage air power box of the present invention is provided with an air pressure supplementary device, which can be arbitrarily set to increase the air density per unit volume in the pre-storage air power box, because the higher the air density per unit volume, the more it can reduce the electric heating power in the box. At the same time, it increases the thermal safety of the work, and it is also a proof of the increase of thermal energy. The present invention uses air as the main power element and self-generated electricity as the thermal element, and does not require any replenishment of raw materials except adding and maintaining lubricating oil;

7. When the person is resting during the journey, the generator can still continue to generate electricity and charge to supplement the shortage of the reserve battery, so that the electricity can be used safely for the next mile;

8. The present invention is extremely quiet and stable because the only air raw material can be recycled and used repeatedly, and there is no carbon dioxide pollution and no explosion sound of a fuel engine. This type of engine is most suitable for use in special environments. Such as underwater submarines, far-reaching tunnels for electricity or construction, uninhabited desert islands and deep mountains, and are widely used.

Description of drawings

FIG. 1 is a schematic structural diagram of a pre-stored air power box in an oil-free air power generation engine.

FIG. 2 is a schematic structural diagram of a cylinder block in an oil-free aerodynamic power generation engine.

FIG. 3 is a schematic structural diagram of an oil-free air power generator.

Shown in the figure: pre-stored air power box 1, air pressure control box 2, vacuum insulation partition 3, inner box 4, air pressure supplementary device 5, outer box 6, electric heating control box 7, exhaust return Intake port 8, pre-stored air power output pipe port 9, cylinder seat 10, pneumatic shift cylinder 11, insulation layer 12, exhaust hole 13, intake size control box 14, first valve plug valve 15, bracket 16, first Two valve plug valve 17, cylinder 18.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

Referring to FIGS. 1 to 3 , in the embodiment of the present invention, the oil-free air power generator includes a pre-stored air power box 1 , an air pressure control box 2 , a vacuum insulation barrier 3 , an inner box 4 , and an air pressure supplementary device 5 , Outer box 6, Electric heating control box 7, Exhaust return air inlet port 8, Pre-stored air power output pipe port 9, Cylinder seat 10, Air pressure shifting cylinder 11, Insulation layer 12, Exhaust hole 13, Air intake The size control box 14, the first valve plug valve 15, the bracket 16, the second valve plug valve 17 and the cylinder 18, the pre-storage air power box 1 includes an air pressure control box 2, a vacuum insulation layer 3, an inner box 4, Air-compressed air supply device 5, outer box 6, electric heating control box 7, exhaust return air inlet 8 and pre-stored air power output pipe port 9, the outer box 6 is sleeved outside the inner box 4 , the vacuum insulation barrier 3 is arranged between the inner box 4 and the outer box 6, the air pressure control box 2 and the electric heating control box 7 are symmetrically installed on both sides of the outer box 6, and the air pressure supply air The device 5 is fixedly installed on the top of the pre-storage air power box 1, the air pressure supply device 5 is communicated with the interior of the inner box 4 through a high-pressure insulation pipeline, and the air pressure control box 2 is communicated with the inner box 4 through a high-pressure insulation pipeline. , the electric heating control box 7 is communicated with the interior of the inner box 4 through a high-pressure heat preservation pipeline, and the exhaust gas return air inlet holes 8 are symmetrically opened on the front surface of the pre-storage air power box 1 and there are two in total. The aerodynamic output pipe port 9 is opened on the top of the pre-storage air power box 1, the outer surface of the pre-storage air power box 1 is coated with a high-temperature thermal insulation coating, and a cylinder seat is fixedly installed on one side of the pre-storage air power box 1 10. Four cylinders 18 are arranged on the cylinder block 10 at equal distances. The front surface of the cylinder block 10 is provided with an exhaust hole 13 at the position corresponding to the cylinder 18. There are four exhaust holes 13 in total. The hole 13 is communicated with the inside of the exhaust gas return air inlet channel 8. The top of the cylinder block 10 is fixedly installed with a pneumatic shift cylinder 11 through bolts. Two brackets 16 are installed symmetrically inside the pneumatic transmission cylinder 11, on which the first valve plug valve 15 and the second valve plug valve 17 are respectively installed by rotating through the connecting rod. Two adjacent cylinders 18 are provided with two brackets. a channel matching the first valve plug valve 15 and the second valve plug valve 17 , the first valve plug valve 15 and the second valve plug valve 17 are located in the right direction of the two channels opened on the two adjacent cylinders 18 Above, an air intake size control box 14 is fixedly installed on the top of the air pressure shifting cylinder 11. The air intake size control box 14 is communicated with the interior of the air pressure shifting cylinder 11 through a high-pressure heat preservation pipeline. The air intake size control box 14 is internally communicated;

The electric heating control box 7 is set to make the air in the pre-storage air power box 1 heat and expand to generate high-pressure power, which pushes the piston in the cylinder 18 to work. The air is pushed back to the pre-storage air power box 1 by the exhaust return air inlet duct 8, and the air pressure supplement device 5 can ensure the supplement of the lost air in the air circulation and improve the air density per unit volume in the pre-storage air power box 1. , reduce the use of electric heat and electricity, and improve the safety of thermal energy, the present invention is designed with a pre-storage air power box 1, and the pre-storage air power box 1 is provided with a vacuum thermal insulation barrier 3 and a high temperature thermal insulation coating layer, which prevents the internal electric heat from overflowing. , the effect is twice that of a general motor;

The present invention directly utilizes the explosive force of the exhaust gas of the cylinder to send the clean hot air without carbon dioxide back to the pre-storage air power box 1, so as to realize the recycle utilization of the heat energy air recovery, which once again increases the superiority of the present invention, and greatly increases the advantages of the present invention. reduces the consumed horsepower and increases the remaining horsepower;

The recovered heat energy is expected to be greater than 50%. This power generation engine does not have the old valve cover, fan, water tank and other power-consuming equipment, while reducing the volume and weight of the engine, which is also a proof of improving energy saving, pre-stored air power box 1 There is an air pressure supplement device 5 on it, which can be set arbitrarily to increase the air density per unit volume in the pre-stored air power box, because the higher the unit volume air density, the more it can reduce the consumption of electricity, heat and electricity in the box. At the same time, the thermal safety of the work is increased, which is also the proof of the increase of thermal energy. The present invention uses air as the main power element and self-generated electricity as the thermal element, and does not require any replenishment of raw materials except for the maintenance of lubricating oil;

When people rest during the journey, the generator can continue to generate electricity and charge to supplement the shortage of reserve battery. Safe electricity consumption for the next mile;

The present invention is extremely quiet and stable because the only air raw material can be recycled and used repeatedly, and there is no carbon dioxide pollution and no explosion sound of a fuel engine. This type of engine is most suitable for use in special environments. Such as underwater submarines, far-reaching tunnels for electricity or construction, uninhabited desert islands and deep mountains, and are widely used.

Although the present invention has been described in detail with reference to the foregoing embodiments, for those skilled in the art, it is still possible to modify the technical solutions described in the foregoing embodiments, or to perform equivalent replacements for some of the technical features. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention shall be included within the protection scope of the present invention.

Claims

The oil-free air power generator includes a pre-storage air power box (1), characterized in that a cylinder seat (10) is fixedly mounted on one side of the pre-storage air power box (1), and a cylinder seat (10) is mounted on the cylinder seat (10). Four cylinders (18) are arranged at equal distances, and an exhaust hole (13) is formed on the front surface of the cylinder seat (10) corresponding to the position of the cylinder (18), and the top of the cylinder seat (10) is fixed and installed with an air pressure by bolts. The transmission cylinder (11), two brackets (16) are symmetrically mounted on the top of the cylinder seat (10) inside the pneumatic transmission cylinder (11), and the brackets (16) are respectively rotatably installed with a connecting rod. A valve plug valve (15) and a second valve plug valve (17), an intake air size control box (14) is fixedly installed on the top of the pneumatic transmission cylinder (11), and the intake air size control box (14) is insulated by high pressure The pipeline is communicated with the inside of the pneumatic transmission cylinder (11).
The oil-free air power generator according to claim (1), characterized in that: the pre-stored air power box (1) comprises an air pressure control box (2), a vacuum insulation barrier (3), an inner box ( 4), the air pressure supply device (5), the outer box (6), the electric heating control box (7), the exhaust gas return air inlet port (8) and the pre-stored air power output pipe port (9), so The outer box body (6) is sleeved on the outer side of the inner box body (4), the vacuum insulation barrier (3) is arranged between the inner box body (4) and the outer box body (6), and the air pressure control box (2) and the electric heating control box (7) are symmetrically installed on both sides of the outer box (6). The air supply device (5) is communicated with the interior of the inner box (4) through a high-pressure heat preservation pipeline, the air pressure control box (2) is communicated with the interior of the inner box (4) through a high-pressure heat preservation pipeline, and the electric heating control box ( 7) It is communicated with the interior of the inner box (4) through a high-pressure thermal insulation pipeline, and the pre-stored air power output pipeline port (9) is opened on the top of the pre-stored air power box (1).
The oil-free aerodynamic power generation engine according to claim 2, characterized in that: the exhaust gas return air intake holes (8) are symmetrically opened on the front surface of the pre-storage aerodynamic box (1) and there are two in total, The air hole (13) is communicated with the inside of the exhaust gas return air inlet channel (8).
The oil-free aerodynamic power generation engine according to claim 1 or 2, characterized in that: the outer surface of the pre-stored air power box (1) is coated with a high-temperature thermal insulation coating.
The oil-free aerodynamic power generation engine according to claim 1, characterized in that: there are four exhaust holes (13) in total.
The oil-free aerodynamic power generation engine according to claim 1, characterized in that: two adjacent cylinders (18) are provided with two valves (15) and a second valve (17). The corresponding channels, the first valve plug valve (15) and the second valve plug valve (17) are located just above the two channels opened on two adjacent cylinders (18).
The oil-free aerodynamic power generation engine according to claim 1, characterized in that: the pre-stored air power output pipe port (9) is communicated with the inside of the intake air size control box (14).
The oil-free aerodynamic power generation engine according to claim 1, characterized in that: a thermal insulation layer (12) is fixedly connected to the outside of the air pressure shifting cylinder (11).