阅读说明：本技术 反引力发动机 (Anti-gravitation engine ) 是由 李援军 于 2020-05-07 设计创作，主要内容包括：本发明涉及一种反引力发动机装置,包括；一转轴,一上壳盖,通过上套孔套设于转轴上部；一底壳体,通过下套孔设转轴下部于；一转盘,通过套接部套接于转轴；转盘中层环面沿转盘经向在转盘内开设有诺干条呈螺旋状蜿蜓的腔道,螺旋状腔道内的每一个旋臂半圆弯折区为一个折返点；一储液箱,内置工作夜,内环上端面形成环形供液部,外环上端面形成环形排液部；供液部开设进液口；排液部开设排液口.储液箱内部设有诺干导流叶片和多级增压叶片。所述反引力推进装置结构精细合理,巧妙的改变了转动惯量力矩方向,显示出较大的反引力动力效果。(The invention relates to an anti-gravity engine device, comprising; the rotating shaft and the upper shell cover are sleeved at the upper part of the rotating shaft through the upper sleeve hole; a bottom shell, which is provided with a lower part of the rotating shaft through a lower sleeve hole; the rotating disc is sleeved on the rotating shaft through the sleeving part; a cavity channel with a spiral zigzag nopal strip is arranged in the turntable along the radial direction of the turntable on the middle layer of the turntable, and a semicircular bending area of each rotary arm in the spiral cavity channel is a folding point; a liquid storage tank with working fluid inside, wherein the upper end surface of the inner ring forms an annular liquid supply part, and the upper end surface of the outer ring forms an annular liquid discharge part; the liquid supply part is provided with a liquid inlet; the liquid discharging part is provided with a liquid discharging port, and a Nordic guide vane and a multi-stage supercharging vane are arranged in the liquid storage tank. The anti-gravity propulsion device has a fine and reasonable structure, skillfully changes the moment direction of the moment of inertia, and shows a larger anti-gravity power effect.)

1. An anti-gravity engine; characterized in that said device;

a rotating shaft (1) which is vertically arranged;

an upper shell cover (2) is horizontally arranged and shaped like a disc, and the middle part of the upper shell cover is provided with an upper trepanning hole (11) which is sleeved on the upper part of the rotating shaft (1).

A bottom shell (3) which is horizontally arranged and takes the shape of a round basin, the middle part of the bottom shell is provided with a lower trepanning hole (12), and the bottom shell (3)

The lower part of the rotating shaft (1) is sleeved through the sleeve hole (12). The upper surface of the outer circular ring surface of the bottom shell (3) is connected with the circular lower ring surface of the outer edge of the upper shell cover (2), and the upper shell cover (2) and the bottom shell (3) are matched to form an accommodating cavity (10).

The rotary disc (5) is annular, is arranged in the middle of the inner side of the containing cavity (10) along the horizontal direction, and is annularly arranged on the rotary shaft (1). The upper part of the inner ring surface of the turntable (5) is sleeved on the upper part of the inner side of the accommodating cavity (10) of the rotating shaft (1) through the sleeving part (39) along the turntable (5). A cavity (36) is formed between the inner ring surface of the turntable (5) and the rotating shaft (1),

a sleeve hole is axially arranged at the center of a dumbbell-shaped cylinder (4), is vertically placed in the cavity (36), and is sleeved on the middle part (13) of the rotating shaft (1) positioned at the inner side of the accommodating cavity (10). And a spiral guide supercharging blade (6) of the dried Nordheim is arranged on the outer cylindrical surface of the dumbbell body (4). So that there may be a multi-stage supercharging arrangement.

The rotary disc (5) is characterized in that cavity channels (7) with spiral zigzag strips are radially arranged on the central layers of the upper disc and the lower disc along the rotary disc (5), the cavity channels are sequentially arranged in the plane of the rotary disc (5) at intervals along the circumferential direction of the rotary disc (5), the spiral cavity channels (7) are divided into a main cavity (28) and a secondary cavity (29) according to the length of the cavity, and for convenience of description, the subsequent description is marked by the spiral cavity channels (7). And the inlet end (14) of the cavity (7) is positioned on the inner ring surface of the turntable (5), and the outlet end (15) of the cavity (7) is positioned on the outer ring surface of the turntable (5). Each semicircular bend in the spiral cavity channel (7) is provided with a return point (19), and each cavity channel (7) is internally provided with a Nordic return point (19);

the liquid storage tank (8) is annular, is internally provided with working liquid, is arranged at the lower part of the inner side of the accommodating cavity (10) along the lower part of the rotary disc (5) and is provided with a spiral guide vane (9) of a dried strip. The upper end surface of the inner ring of the liquid storage tank (8) is vertically and upwards protruded in the circumferential direction to form an annular liquid supply part (16) which is accommodated in the interval of the guide pressurizing blades (6). The outer annular surface circumference of liquid reserve tank (8) is vertical upwards the arch and is formed an annular drainage portion (17), and liquid reserve tank (8) are located the below position of carousel (5) and are returned liquid portion (18), return liquid, flowing back inside all is provided with no spiral guide vane (9) futilely, has effectively utilized the surplus inertia of rotating of working solution to flow back. The liquid storage tank (8) is divided into a plurality of spiral working fluid backflow channels; a liquid inlet (14) of the cavity channel (7) is arranged on one side of the liquid supply part (16) relative to the inner annular surface of the turntable (5), and a liquid outlet (15) of the cavity channel (7) is arranged on one side of the liquid discharge part (17) relative to the outer annular surface of the turntable (5).

When an external motor (not shown) drives a motor connecting part (20) at the upper end or the lower end of the rotating shaft (1), the rotating disc (5) is driven to rotate and generate centrifugal force, vacuum is formed in the spiral cavity channel (7) in the rotating disc (5), pressure difference is formed between the inlet end (14) of the cavity channel (7) and a liquid supply part (16) of the liquid storage tank (8), and working liquid is pressed into the inlet end (14) of the cavity channel (7) to enter the cavity channel by a guide pressurizing blade (6) under high pressure and runs to the outlet end (15) of the cavity channel (7) to be discharged into a liquid discharge part (17) of the liquid storage tank (8). The liquid supply part (16), the spiral cavity channel (7), the liquid discharge part (17) and the liquid return part (18) are the liquid supply part (16) to reciprocate circularly.

The half-round turning point (19) of the spiral cavity of the Nuodle is arranged in the Nuodle cavity channel (7) in the rotary disc (5), and the corresponding Nuodle angular momentum lift moment L is generated_{Lifting of wine}Combined with angular velocity omega generated by rotation of the turntable, the set L of angular momentum lift moments_{Rotary disc}＝∑I_{Lifting of wine}ω₁Forming the total angular momentum lift moment of the rotary disc (5), the direction and the rotary disc (5)]The direction of the rotating shaft is the same as that of the rotating shaftThe counter-traction propelling energy is generated to the rotary disc (5);

the motor drives the rotating shaft (1) through the linking part (20) to drive the counter-traction thrust generated by the rotating disc (5), and the counter-traction thrust is transmitted to the upper shell and the lower shell to form power output through the pressure bearing (21) sleeved on the rotating shaft (1) by the upper shell cover and the pressure bearing (22) sleeved on the rotating shaft (1) by the lower shell.

2. The anti-gravitation engine according to claim 1, characterised in that; the radial section of the shape of the spiral cavity (41) is an ellipse (38), the distance from the point A to the point B on the x axis of the ellipse coordinate (45) is 0-300(mm), and the distance from the point C to the point D on the y axis is 5-800 (mm).

3. The anti-gravitation engine according to claim 1, characterised in that; the lead angle of the spiral cavity wall (41) and the cavity radial surface (42) is 35-75 degrees.

4. The anti-gravitation engine according to claim 1, characterised in that; the number of the semicircular folding points (19) in each spiral cavity channel (7) is 4-200.

5. The anti-gravitation engine according to claim 1, characterised in that; the central axis (26) of each spiral cavity is parallel to the horizontal plane of the rotating disc (5).

6. The anti-gravitation engine according to claim 1, characterised in that; the liquid storage tank (8) is internally provided with 18-500 spiral guide and pressurizing blades at different positions and is arranged in cavities of the liquid supply part, the liquid discharge part and the liquid return part.

7. The anti-gravitation engine according to claim 1, characterised in that; the inner and lower ring surfaces of the excircle of the upper shell cover (2) and the upper ring surface of the excircle edge of the rotary table (5) are provided with a non-catching type sealing ring groove (25).

8. The anti-gravitation engine according to claim 1, characterised in that; the working solution is a mercury solution containing gold, and the content of gold in the mercury solution is 0-20 wt%.

Technical Field

The invention belongs to the technical field of power, and particularly relates to a novel tool device which is used for changing the direction of the inertia moment of a traditional gyroscope, breaking the problem that the gyroscope effect can only be applied to various inertial navigations, widening the problem that the gyroscope effect is in another new and unprecedented field, and belongs to the future interplanetary gravitation power system and gravitation resistance.

Background

The gyro has moment of inertia when rotating, and a gyro moment, also called a gyroscopic moment, is generated for keeping the gyro stable in rotation. The inertial moment is proportional to the product of the moment of inertia and angular velocity.

When external moment acts on the rotating shaft to try to change the direction of the rotating shaft, two reactive moments of one negative and one positive are generated at the intersection of the gyro turntable and the direction of the external moment so as to resist the external moment (figure 1). The resisting moment is angular kinetic moment, also called turning moment, and is widely applied to inertial navigation instruments. The moment generating point is the semicircular folding point of the gyro disk.

Disclosure of Invention

If a round hollow pipeline connected end to end is used, the interior of the pipeline is filled with working fluid with mass such as water; metal mercury replaces the mass of the spinning top disk (figure 2). Is this gyroscopic effect the same when metallic mercury is operating in a channel? The results are the same through various experiments. For example, the part of the hose which is flowing water is bent into a circle, for example, when the cylinder vehicle runs on a curve, the cylinder vehicle rotates around the virtual center of the cylinder vehicle, and the gyro effect is obvious. Because each mercury molecule in the moving metal flow has a positive-negative interface, the instantaneous positions of the mercury molecules are vertical to the instantaneously formed virtual rotating shaft, and negative and positive reactive moments can appear at the turning-back point positions on two sides of the rotating shaft along with the change of the direction of the virtual rotating shaft.

If we saw the closed annular pipeline at a certain position, the sawed position has two surfaces, namely a working liquid inlet (a surface) and a working liquid outlet (b surface).

Then the two sections a and b are dislocated in parallel for a certain distance, so that when viewed from the lower part of the section, the section of the pipeline is not in an inverted S shape? Is the S-shaped pipe a section of spiral channel with a certain lead angle? And is called a gyro unit, fig. 3

If we put this section of spiral channel on a carrier turntable, the channel a surface is at the center of the carrier turntable, the channel b surface is at the outer edge of the carrier turntable, the main axis of the spiral channel is also the virtual axis, and is parallel to the radial line from the center of the turntable to the edge of the turntable.

When the carrier turntable rotates, the trunk axis 26 of the spiral channel will sweep out a plane D, and the trunk axis 26, the spiral channels at both sides and the swept-out plane will have two junctions. When working liquid flows at a certain angular speed in the spiral channel, the working liquid is endowed with rotational inertia, and simultaneously, when the carrier turntable rotates, the direction of a main shaft of the spiral channel is changed, and angular momentum resisting moment can occur at the two intersection points. Because the intersection point spiral channel and the plane of the carrier turntable form an included angle as shown in fig. 3-1, the resisting moment generated by the intersection point is not completely counteracted by the rotational inertia of the carrier turntable, and the remaining yin-yang angular momentum moment L yin 1 and L yang 1 are stored. And because the direction is the same and parallel to the axial direction of the rotary disk shaft of the carrier, the sum of the directions is called lifting energy. The lifting force is just like that a skateboarder stands on a skateboard and throws the skateboarder to be half-empty by the inertia force after rushing down a u-shaped slideway. The slide way of the device is a spiral channel pipe, and the athlete is each mercury molecule. The lifting force can act on the carrier disc and then is transmitted to the rotating shaft of the carrier disc through the bearing, and finally, power is output. The point of intersection is the point of return 19.

According to the principle, a turntable is driven by a motor, spiral channels of the nugan strips are distributed on the 360-degree plane of the turntable, and each spiral channel is formed by connecting the nugan gyro units. What is the concept of figure 4 norhaan times norhaan? The appearance of the aircraft is like a wing of an airplane, and the lifting force generated by the aircraft is imaginable and more important is the counter attraction.

How much its energy is? Can it occupy 60% of the drive motor power? There are also various experimental, material and structural improvements to be made. At present, the thermal ratio of a heavy oil engine is 50%, the thermal ratio of a gasoline engine is 25%, and each horsepower of an airplane can generate 5kg of lift force (the data comes from hundredths)

Is the success of this device to replace the large body of the rocket? Our invention is therefore striving towards this aspect.

Drawings

Fig. 1, a conventional rigid top.

Fig. 2, mercury metal top.

Fig. 3, a helical gyro unit.

Fig. 3-1, resolution of the moment of the helical turning point.

Fig. 4, anti-gravity wings.

Fig. 5 is a schematic structural diagram of an anti-gravity engine provided by the present invention.

Fig. 6 is a top view of fig. 1 with the upper cover and the turntable removed and the guide vanes disposed in the lower housing basin.

FIG. 7 is a schematic view of the spiral channel structure according to the present invention.

FIG. 8 is a schematic radial cross-sectional view of the spiral channel of the present invention.

In the figure, 1 rotating shaft, 2 upper shell cover, 3 bottom shell body, 4 dumbbell-shaped cylinder, 5 power turntable, 6 liquid inlet pressurizing guide vane, 7 spiral cavity channel, 8 liquid storage tank, 9 liquid discharge and return liquid combined guide vane, 10 accommodating cavity, 11 upper trepanning, 12 lower trepanning, 13 dumbbell body trepanning, 14 liquid inlet, 15 liquid outlet, 16 liquid supply part, 17 liquid discharge part, 18 liquid return part, 19 turning point, 20 motor connecting part, 21 upper shell bearing, 22 bottom shell bearing, 23 turntable upper disk, 24 turntable lower disk, 25 sealing ring groove, 26 spiral axis, 27 upper and lower turntable joint plane line, 28 main spiral cavity, 29 pair spiral cavity, 30 pair spiral cavity liquid inlet, 31 pair spiral cavity, 36 accommodating cavity, 37 spiral cavity lifting angle, 38 spiral body, 39 turntable inner ring trepanning hole, 40 return channel, 41 spiral cavity channel wall, 42 spiral cavity radial section, 43 upper case seal, 44 lower case seal, 45 spiral cavity radial plane coordinates,

detailed description of the invention

The present invention is further illustrated by the following specific examples, which are not intended to limit the scope of the invention.

Example 1

Referring to fig. 5-8, an anti-gravity engine provided by the present invention includes;

a rotating shaft (1) which is vertically arranged;

an upper shell cover (2) is horizontally arranged and shaped like a disc, and the middle part of the upper shell cover is provided with an upper trepanning hole (11) which is sleeved on the upper part of the rotating shaft (1).

The bottom shell (3) is horizontally placed and is shaped like a round basin, a lower sleeve hole (12) is formed in the middle of the bottom shell, and the bottom shell (3) is sleeved on the lower portion of the rotating shaft (1) through the sleeve hole (12). The upper surface of the outer circular ring surface of the bottom shell (3) is connected with the circular lower ring surface of the outer edge of the upper shell cover (2), and the upper shell cover (2) and the bottom shell (3) are matched to form an accommodating cavity (10).

The rotary disc (5) is annular, is arranged in the middle of the inner side of the containing cavity (10) along the horizontal direction, and is annularly arranged on the rotary shaft (1). The upper part of the inner ring surface of the turntable (5) is sleeved on the upper part of the inner side of the accommodating cavity (10) of the rotating shaft (1) through the sleeving part (39) along the turntable (5). A cavity (36) is formed between the inner ring surface of the turntable (5) and the rotating shaft (1); a set of holes are axially formed in the center of a dumbbell-shaped cylinder (4), the dumbbell-shaped cylinder is vertically placed in a cavity (36), the rotating shaft (1) is sleeved on the middle portion (13) of the inner side of the accommodating cavity (10), and a spiral pressure-increasing guide vane (6) is arranged on the outer cylindrical surface of the dumbbell body (4).

The rotary disc (5) is characterized in that cavity channels (7) with spiral zigzag strips are radially arranged on the central layers of the upper disc and the lower disc along the rotary disc (5) and are sequentially arranged in the rotary shaft (5) at intervals along the circumferential direction of the rotary disc (5), the spiral cavity channels (7) are divided into a main cavity (28) and a secondary cavity (29) according to the length of the cavity, and the subsequent description is marked by the spiral cavity channels (7) for convenience. And the inlet end (14) of the cavity (7) is positioned on the inner ring surface of the turntable (5), and the outlet end (15) of the cavity (7) is positioned on the outer ring surface of the turntable (5). Each semicircular bend in the spiral cavity channel (7) is provided with a return point (19), and each cavity channel (7) is internally provided with a Nordic return point (19); the liquid storage tank (8) is annular, is internally provided with working liquid, is arranged at the lower part of the inner side of the accommodating cavity (10) along the lower part of the rotary disc (5) and is provided with a spiral guide vane (9) of a dried strip. The upper end surface of the inner ring of the liquid storage tank (8) is vertically and upwards protruded in the circumferential direction to form an annular liquid supply part (16) which is accommodated in the interval of the guide vane (6). The outer ring surface of the liquid storage tank (8) is vertically and upwards protruded in the circumferential direction to form an annular liquid discharge part (17), the liquid storage tank (8) is positioned below the rotary disc (5) and is provided with a liquid return part (18), the liquid return part and the liquid discharge part are internally provided with spiral guide vanes (9) of the nopal, and the liquid storage tank (8) is divided into spiral guide channels of the nopal; one side of the liquid supply part (16) relative to the inner annular surface of the turntable (5) is provided with a liquid inlet (14) of the cavity (7), and one side of the liquid discharge part (17) relative to the outer annular surface of the turntable (5) is provided with a liquid discharge port (15) of the cavity (7).

When an external motor (not shown) drives a motor connecting part (20) at the upper end or the lower end of the rotating shaft (1), the rotating disc (5) is driven to rotate and generate centrifugal force, vacuum is formed in a spiral cavity (7) in the rotating disc (5), pressure difference is formed between an inlet end (14) of the cavity (7) and a liquid supply part (16) of the liquid storage tank (8), and working liquid is pressed into the inlet end (14) of the cavity (7) by the boosting type guide vane (6) to enter the cavity and runs to an outlet end (15) of the cavity (7) to be discharged into a liquid discharge part (17) of the liquid storage tank (8). The liquid supply part (16), the spiral cavity channel (7), the liquid discharge part (17) and the liquid return part (18) are the liquid supply part (16) to reciprocate circularly;

the Nuo does the chamber in carousel (5) and says (7), has the semicircle of Nuo does spiral chamber and turns back some (19), and the motor drives pivot (1) through link portion (20) and drives the anti-attraction that carousel (5) produced and impel kinetic energy, through last cap cover pressure bearing (21) on pivot (1) and pressure bearing (22) of lower casing cover on pivot (1), passes to and forms power take off in upper and lower casing.

Furthermore, a sealing element (43) is arranged at the joint of the rotating shaft (1) and the upper shell cover (2), and a sealing element (44) is arranged at the joint of the bottom shell (3) and the rotating shaft (1).

Further, the axis of the spiral cavity (7) is parallel to the joint surface of the upper disc and the lower disc of the rotating disc (5), and the lift angle (37) of the spiral cavity and the radial section of the spiral body is 35-75 degrees.

Furthermore, the number of the semicircular folding points (19) in each cavity channel (7) is 4-500.

Further, the working solution is mercury solution mixed with a certain proportion of gold, and the content of gold is 0-20 wt%.

Example 2

The arrangement of the spiral cavity (7) in the turntable (5) is composed of a main cavity (28) and a secondary cavity (29) (see fig. 7), a liquid inlet (30) of the secondary cavity is arranged on the lower surface of the lower disc (24) of the turntable (5), and a liquid outlet (31) of the secondary cavity is arranged on the outer ring surface of the turntable (5) and is arranged in the circumferential direction in the same direction as the liquid outlet (15) of the main cavity (28).

The shape of a cavity section coordinate (45) is an ellipse (39) (see figure 8), and the coordinate X axis is flush with the joint surface (27) of the upper disc (23) and the lower disc (24) of the turntable (5).

Example 3

The inner cavity of the bottom shell (3) is provided with a spiral guide vane (9) which divides the liquid storage tank (8) into spiral working liquid backflow channels (40) with the number equal to that of the vanes, and the backflow of the residual rotational inertia of the working liquid is effectively utilized. The built-in cavity (36) is internally provided with a pressure-increasing type guide vane (6) and divides the built-in cavity into a liquid supply channel with the number equal to that of the vanes (6) and a liquid supply part (16) which are integrated. And according to the design requirement, the pressure grade of the liquid supply part can be pressurized in multiple stages.

Although the present invention has been described in detail with reference to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications or improvements may be made to the invention or a functional block may be deleted without departing from the spirit of the invention.