阅读说明：本技术 一种磁悬浮真空管道运载系统 (Magnetic suspension vacuum pipeline carrying system ) 是由 何亚飞 夏良刚 于 2021-09-01 设计创作，主要内容包括：本发明涉及一种磁悬浮真空管道运载系统,包括真空管道、一号永磁体、管道封闭门、运输运载器、二号永磁体、光驱引擎加速器和/或高斯加速器；在所述一号永磁体和二号永磁体相斥作用下,所述运输运载器悬浮于真空管道中央,所述光驱引擎加速器和/或高斯加速器加速运输运载器移动,且在一号永磁体的磁场位置改变时和/或光驱引擎加速器的光驱引擎方向改变时使运输运载器减速；该系统民用上可用于高速运输系统,军事上用于战机发射,导弹和火炮发射,太空领域可用于航天器的发射和对空间站物资补给的运输。本发明磁悬浮真空管道与加速器结合使用,可以持续均匀的高速运行,无需额外加入能源,实现提速和减少能源消耗的作用,可于多个方向使用。(The invention relates to a magnetic suspension vacuum pipeline carrying system, which comprises a vacuum pipeline, a first permanent magnet, a pipeline closing door, a transport carrier, a second permanent magnet, a CD-ROM engine accelerator and/or a Gaussian accelerator, wherein the first permanent magnet is arranged on the vacuum pipeline; under the repulsion action of the first permanent magnet and the second permanent magnet, the transport carrier is suspended in the center of the vacuum pipeline, the CD-ROM engine accelerator and/or the Gaussian accelerator accelerates the transport carrier to move, and the transport carrier is decelerated when the position of the magnetic field of the first permanent magnet is changed and/or the direction of the CD-ROM engine accelerator is changed; the system can be used for high-speed transportation systems for civil use, war plane launching, missile and artillery launching for military use, and the space field can be used for launching of spacecrafts and transportation of space station material supply. The magnetic suspension vacuum pipeline is combined with the accelerator for use, can continuously and uniformly run at high speed, does not need to additionally add energy, realizes the effects of increasing the speed and reducing the energy consumption, and can be used in multiple directions.)

1. A magnetic suspension vacuum pipeline carrying system is characterized in that: the device comprises at least one vacuum pipeline (1), a first permanent magnet (2) arranged on the inner wall of the vacuum pipeline (1), pipeline closing doors (3) respectively arranged at two ends of the vacuum pipeline (1), a transportation carrier (4) arranged in the vacuum pipeline (1), a second permanent magnet (5) arranged on the transportation carrier (4), and a CD-ROM engine accelerator (7) and/or a Gaussian accelerator (6) arranged in the vacuum pipeline (1);

under permanent magnet (2) and No. two permanent magnet (5) repulsion, transportation carrier (4) suspend in vacuum pipeline (1) central authorities, CD-ROM drive engine accelerator (7) and/or gaussian accelerator (6) accelerate transportation carrier (4) and remove, and make transportation carrier (4) slow down when the magnetic field position of permanent magnet (2) changes and/or the CD-ROM drive engine direction of CD-ROM drive engine accelerator (7) changes.

2. A magnetic levitation vacuum pipe-carrying system as claimed in claim 1, wherein: each vacuum pipeline (1) is arranged into a plurality of sections, and two ends of each vacuum pipeline (1) are connected with a flow divider (12);

the two ends of the vacuum pipeline (1) are connected with an air extractor (8) through an air extraction pipeline, pipe joints at the two ends of the vacuum pipeline (1) are sealed through a pipeline sealing door (3) to form two sealed cavities, the air extractor (8) is connected with the two sealed cavities, and the first permanent magnet (2) comprises a strip-shaped magnetic pole N pole and a strip-shaped magnetic pole S pole which are distributed along the transportation direction of the vacuum pipeline (1);

self-repairing liquid (11) is arranged in a tube layer of the vacuum tube (1), and when cracks and holes appear in the vacuum tube (1), the self-repairing liquid (11) flows out to block the cracks and the holes; the self-repairing liquid (11) comprises composite fibers, a metal sheet and polyurethane liquid which is subjected to oxidation hardening/hardening in the air, wherein the polyurethane liquid is fast-curing polyurethane glue.

3. A magnetic levitation vacuum pipe-carrying system as claimed in claim 2, wherein: the transportation carrier (4) comprises a transportation pipe (41), a magnetic field shielding material (42) arranged on the inner wall of the transportation pipe (41) and light bearing plates (43) arranged at two ends of the transportation pipe (41), and the second permanent magnet (5) comprises a tubular magnetic pole S pole and a tubular magnetic pole N pole which are respectively arranged on the inner wall and the outer wall of the transportation pipe (41).

4. A magnetic levitation vacuum pipe-carrying system as claimed in claim 3, wherein: CD ROM engine accelerator (7) include battery (71), solar panel (72), laser emitter (73), solar panel (72) and battery (71) set up on vacuum pipe (1), laser emitter (73) set up in the tube coupling junction of vacuum pipe (1) and are the screw-tupe and distribute, laser emitter (73) launch a large amount of laser and hold light board (43) of transportation carrier (4) afterbody, produce a large amount of light and press to promote transportation carrier (4) to advance, laser emitter (73) launch a large amount of laser and hold light board (43) of transportation carrier (4) head, produce a large amount of light and press, thereby will transport carrier (4) speed reduction.

5. A magnetic levitation vacuum pipe-carrying system as claimed in claim 2, wherein: still including setting up in magnetic suspension track (9), maintenance delivery ware (10) of vacuum tube (1) top, be equipped with fixed permanent magnet on magnetic suspension track (9), be equipped with the suspension permanent magnet on maintenance delivery ware (10), maintenance delivery ware (10) are gone on magnetic suspension track (9) through the repulsion effect suspension of fixed permanent magnet and suspension permanent magnet, and maintenance delivery ware (10) are used for transporting single-section vacuum tube (1) to vacuum tube (1) damage position, carry out repair rapidly and change work.

6. Use of a magnetic levitation vacuum line carrier system as claimed in any of claims 1-5, characterised in that: the magnetic suspension vacuum pipeline carrying system is used for long-distance rail transportation of personnel and materials.

7. Use of a magnetic levitation vacuum line carrier system as claimed in any of claims 1-5, characterised in that: the magnetic suspension vacuum pipeline carrying system is used for transporting materials from the ground to the outer space, accelerates the transport carrier (4) to reach a first cosmic speed, and transports the materials to the outer space.

8. Use of a magnetic levitation vacuum line carrier system as claimed in any of claims 1-5, characterised in that: the magnetic suspension vacuum pipeline carrying system is applied to missile launching, and the transport carrier (4) is set to be in a missile shape;

the missile is sealed and stored in a transport carrier (4), the transport carrier (4) carries a large number of missiles to be thrown to a hitting position under the drive of an optical drive engine accelerator (7), and the magnetic suspension vacuum pipeline carrying system is also applied to space simulation experiments of space warships.

9. Use of a magnetic levitation vacuum line carrier system as claimed in any of claims 1-5, characterised in that: the magnetic suspension vacuum pipeline carrying system is applied to the accelerated launching of a warplane;

the fighter plane is sealed in a transport carrier (4) and accelerated to be launched into the air;

or the fighter is set to be a sealed space fighter, the bottom of the space fighter is provided with a light bearing plate (43), and the space fighter is accelerated to a first cosmic velocity through a CD-ROM engine accelerator (7) and enters the outer space for sailing.

10. Use of a magnetic levitation vacuum line carrier system as claimed in any of claims 1-5, characterised in that: the magnetic suspension vacuum pipeline carrying system is applied to the establishment of a space base;

a large number of CD-ROM engine accelerators (7) run around the earth to form an earth-surrounding system, the transport carriers (4) which are emitted to the near-earth orbit through the vacuum pipeline (1) are accelerated, so that the second cosmic speed is achieved to be separated from the gravity of the earth, the transport carriers (4) carry equipment required by a space base to the space, and the space base is built.

Technical Field

The invention belongs to the technical field of transport pipelines, and particularly relates to a magnetic suspension vacuum pipeline carrying system.

Background

The existing high-speed rail utilizes magnetic suspension to accelerate the high-speed rail to a very high speed. But cannot be accelerated to higher speeds due to air resistance and sound barriers. The traditional space rocket utilizes solid rocket fuel and liquid rocket fuel, and has extremely high cost and extremely low transportation efficiency. The existing technology can not rapidly transport a large amount of materials such as more than ten thousand tons of materials into the space.

Meanwhile, the main difficulties in launching rockets are thermal insulation and power problems. Due to the effects of air drag and earth gravity, a large amount of energy is required to accelerate the rocket to the first cosmic velocity when the rocket is launched against earth gravity and air drag. This requires the rocket to be powered extremely and to use a large amount of chemical fuel to pollute the environment, and the carrying rate is extremely low. A large amount of materials cannot be transported to the space in a short time, and a space city is built.

In the present weapon system, artillery and missile become the most important national defense apparatus. What is needed is a way to strike enemies with the natural force at high speeds. Meanwhile, the position of the toy is hidden, and enemy striking is avoided. The high cost and the energy consumption rate of the missile and the cannon are too high.

At present, the technology is successful due to the successful manufacture of large particle colliders. The material conditions required for circular accelerators (gauss accelerators) and large colliders are mature, and the technical conditions required for vacuum pipes are also mature. Recent photon drivers can drive the advancement of an object by using photons.

The number and the tonnage of large shield machines in China are the first global, so that the method has the condition of laying vacuum magnetic suspension pipelines on the ground in a large scale.

Therefore, the invention provides a magnetic suspension vacuum pipeline carrying system which is used for solving the problems that the speed is difficult to increase and the conveying efficiency is low in space conveying and ground conveying.

Disclosure of Invention

The present invention is directed to solving the above problems and providing a magnetic levitation vacuum pipeline carrying system.

The invention realizes the purpose through the following technical scheme:

a magnetic suspension vacuum pipeline carrying system comprises at least one vacuum pipeline, a first permanent magnet arranged on the inner wall of the vacuum pipeline, pipeline closing doors respectively arranged at two ends of the vacuum pipeline, a transport carrier arranged in the vacuum pipeline, a second permanent magnet arranged on the transport carrier, and a CD-ROM engine accelerator and/or a Gaussian accelerator arranged in the vacuum pipeline;

under the repulsion action of the first permanent magnet and the second permanent magnet, the transport carrier is suspended in the center of the vacuum pipeline, the optical drive engine accelerator and/or the Gaussian accelerator accelerates the transport carrier to move, and the transport carrier is decelerated when the magnetic field position of the first permanent magnet is changed and/or the direction of an optical drive engine of the optical drive engine accelerator is changed.

As a further optimization scheme of the invention, each vacuum pipeline is provided with a plurality of sections, and two ends of each vacuum pipeline are connected with a flow divider;

the two ends of the vacuum pipeline are connected with an air extractor through an air extraction pipeline, pipe joints at the two ends of the vacuum pipeline are sealed through a pipeline sealing door to form two sealed cavities, the air extractor is connected with the two sealed cavities, and the first permanent magnet comprises a strip-shaped magnetic pole N pole and a strip-shaped magnetic pole S pole which are distributed along the transportation direction of the vacuum pipeline;

self-repairing liquid is arranged in a tube layer of the vacuum tube, and when cracks and holes appear in the vacuum tube, the self-repairing liquid flows out to block the cracks and the holes; the self-repairing liquid comprises composite fibers, a metal sheet and polyurethane liquid which is subjected to oxidation hardening/hardening in the air, wherein the polyurethane liquid is fast-curing polyurethane glue.

As a further optimization scheme of the invention, the transportation carrier comprises a transportation pipe, a magnetic field shielding material arranged on the inner wall of the transportation pipe and light bearing plates positioned at two ends of the transportation pipe, and the second permanent magnet comprises a tubular magnetic pole S pole and a tubular magnetic pole N pole which are respectively arranged on the inner wall and the outer wall of the transportation pipe.

The light bearing plates are arranged in the front and the rear of the transport carrier and are mainly made of light pressure materials such as 'light drive' graphene materials, and the transport carrier is accelerated or decelerated by adjusting the direction of the CD-ROM engine. The auger electrons are excited on the graphene by utilizing the strong driving laser, and the recoil electrons generate a driving force on the graphene so as to further accelerate the transportation carrier.

As a further optimized solution of the present invention, the optical drive engine accelerator comprises a battery, a solar panel, and a laser emitter, the solar panel and the battery are arranged on the vacuum pipeline, the laser emitter is arranged at the joint of the pipe joints of the vacuum pipeline and is distributed spirally, the laser emitter emits a large amount of laser to a light bearing plate at the tail part of the transport carrier to generate a large amount of light pressure, thereby pushing the transport carrier to advance, on the contrary, the laser emitter emits a large amount of laser to the light bearing plate at the head part of the transport carrier to generate a large amount of light pressure, thereby decelerating the transport carrier, the laser transmitter may comprise two directional laser transmitter heads corresponding to the head and tail of the transport carrier, or the laser emission direction of the pipeline deceleration area is opposite to that of the acceleration area, and the direction of the CD-ROM engine can be adjusted by adjusting the laser emission direction.

As a further optimization scheme of the invention, the vacuum pipeline repairing vehicle further comprises a magnetic suspension track and a maintenance carrier, wherein the magnetic suspension track is arranged above the vacuum pipeline, the magnetic suspension track is provided with a fixed permanent magnet, the maintenance carrier is provided with a suspension permanent magnet, the maintenance carrier travels on the magnetic suspension track in a suspension manner through the repulsion action of the fixed permanent magnet and the suspension permanent magnet, and the maintenance carrier is used for conveying a single section of vacuum pipeline to the damaged part of the vacuum pipeline to carry out rapid repairing and replacing work.

The application of a magnetic suspension vacuum pipeline carrying system is used for long-distance rail transportation of personnel and materials.

The application of the magnetic suspension vacuum pipeline carrying system is used for material transportation from the ground to the space, accelerates a transport carrier to reach a first cosmic velocity, and transports a large number of materials to the space at one time.

The application of a magnetic suspension vacuum pipeline carrying system is applied to missile launching, and a transport carrier is arranged in a missile shape;

the missile is sealed and stored in a transport carrier, the transport carrier carries a large number of missiles to be thrown to a hitting position under the drive of an optical drive engine accelerator, and the magnetic suspension vacuum pipeline carrying system is also applied to a space simulation experiment of a space warship.

The application of a magnetic suspension vacuum pipeline carrying system is applied to the accelerated launching of a fighter plane;

sealing the fighter plane in a transport carrier, and accelerating the fighter plane to be launched into the air;

or the fighter is set to be a sealed space fighter, the bottom of the space fighter is provided with a light bearing plate, the light bearing plate is accelerated to a first cosmic velocity through a CD-ROM engine accelerator, and the space fighter enters the outer space to sail.

The application of a magnetic suspension vacuum pipeline carrying system is applied to the establishment of a space base;

a large number of CD-ROM engine accelerators move around the earth to form an earth-surrounding system, and the transport carriers which are emitted to the near-earth orbit through the vacuum pipeline are accelerated, so that the second cosmic speed is separated from the gravity of the earth, and the transport carriers carry equipment required by a space base to the space to establish the space base.

At present, the technology is successful due to the successful manufacture of large particle colliders. The material conditions required for the gaussian accelerator and the large collider are mature, and the technical conditions required for the vacuum pipeline are also mature. Recent photon drivers can drive the advancement of an object by using photons. The invention continuously emits photons to the rear end of a transport carrier through an opposite structure to complete the pushing and acceleration of the transport carrier, the transport carrier in a pipeline is subjected to first-step acceleration through a vacuum pipeline and a Gaussian accelerator arranged on the vacuum pipeline, then the transport carrier reaching a preset speed reaches an emission channel of the vacuum pipeline through a flow divider, the transport carrier is further accelerated to exceed a first cosmic speed from the emission channel through a CD-ROM engine accelerator, meanwhile, a pipeline closing control system is utilized to control the pipeline at the emission port to be closed and opened, and the transport carrier is emitted to the air along the direction of the rotation of the earth. Upon reaching the first cosmic velocity, the transport vehicle will follow a predetermined trajectory into orbiting earth orbit.

The number and the tonnage of large shield machines in China are the first global, so that the method has the condition of laying vacuum magnetic suspension pipelines on the ground in a large scale. Simultaneously in order to prevent the damaged scheduling problem of pipeline, adopt one kind to possess selfreparing liquid layer tube, when the pipe wall had the crack, thereby its liquid layer meets the air and condenses and plug up the leak.

The invention has the beneficial effects that:

1) the magnetic suspension vacuum pipeline is combined with the accelerator for use, a vacuum gravity-free running condition is provided for the transport carrier, the transport carrier under the condition can be accelerated to a very high state and is suitable for large-scale long-distance running, the transport carrier only needs to be accelerated to a high-speed state, the continuous and uniform high-speed running can be realized, additional energy sources do not need to be added, and the magnetic suspension vacuum pipeline has the effects of further accelerating and reducing energy consumption on the conventional high-speed rail system;

2) the pipeline adopts a vacuum structure, and the transport carrier is driven by the CD-ROM engine accelerator, so that the transport carrier generates extremely low noise during operation, can be used for a high-speed transport system in civil use, can be used for war plane launching and missile and artillery launching in military use, and can be used for launching of spacecrafts and transporting material supplies of space stations in the space field;

3) the invention simultaneously utilizes the goose channel effect in aerodynamics, can accelerate a large number of carriers to a high-speed state at one time, and launch along a fixed track, and because the first transport carrier pulls air at two ends away, the atmospheric pressure at the back is reduced, the subsequent transport carriers can run along the track, thereby saving energy;

4) the magnetic suspension vacuum pipeline adopts the combination of the annular Gauss accelerator and the spiral CD-ROM engine accelerator, is accelerated in a grading way, enters the emission pipeline through the flow divider when reaching a certain speed, and can reduce the laying length of the pipeline.

Drawings

FIG. 1 is a schematic view of the overall structure of embodiment 1 of the present invention;

FIG. 2 is a schematic cross-sectional view showing the structure of example 1 of the present invention;

fig. 3 is a cross-sectional view of a transport carrier according to embodiment 1 of the invention;

figure 4 is a longitudinal section of a transport vehicle according to embodiment 1 of the invention;

FIG. 5 is a schematic view of a shunt according to embodiment 1 of the present invention;

FIG. 6 is a schematic diagram of a magnetic levitation track and maintenance vehicle according to embodiment 2 of the present invention;

FIG. 7 is a schematic sectional view of a vacuum line according to example 3 of the present invention;

FIG. 8 is a schematic sectional view of a vacuum line according to example 4 of the present invention;

FIG. 9 is a schematic sectional view of a vacuum pipe according to embodiments 5 and 6 of the present invention;

FIG. 10 is a schematic sectional view of a vacuum line according to example 7 of the present invention;

in the figure: 1. a vacuum line; 2. a first permanent magnet; 3. a pipe closing door; 4. a transport carrier; 41. a transport pipe; 42. a magnetic field shielding material; 43. a light-bearing plate; 5. a second permanent magnet; 6. a Gaussian accelerator; 7. an optical drive engine accelerator; 71. a battery; 72. a solar panel; 73. a laser transmitter; 8. an air extractor; 9. a magnetic levitation track; 10. maintaining the carrier; 11. self-repairing liquid; 12. a flow divider.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Example 1

As shown in fig. 1-5, a magnetic levitation vacuum pipeline carrying system includes at least one vacuum pipeline 1, a first permanent magnet 2 disposed on an inner wall of the vacuum pipeline 1, pipeline closing doors 3 respectively disposed at two ends of the vacuum pipeline 1, a transport carrier 4 disposed in the vacuum pipeline 1, a second permanent magnet 5 disposed on the transport carrier 4, and a cd-rom engine accelerator 7 and/or a gaussian accelerator 6 disposed in the vacuum pipeline 1;

under the repulsion action of the first permanent magnet 2 and the second permanent magnet 5, the transport carrier 4 is suspended in the center of the vacuum pipeline 1, the optical drive engine accelerator 7 and/or the Gaussian accelerator 6 accelerates the movement of the transport carrier 4, and the transport carrier 4 is decelerated when the magnetic field position of the first permanent magnet 2 is changed (the current introduced by the winding of the first permanent magnet 2 is changed, such as the current is changed in an opposite intersection way) and/or the optical drive engine direction of the optical drive engine accelerator 7 is changed; wherein the content of the first and second substances,

the optical drive engine accelerator 7 drives: the driving of the transport carrier 4 is mainly carried out by a circular pipeline optical drive engine and an optical drive engine on a space track;

the Gaussian accelerator 6 drives: the circular acceleration of the transport vehicle 4 as well as the initial vacuum acceleration of the transport vehicle 4 and the pipe acceleration in the ground are performed with a gaussian accelerator 6.

Each vacuum pipeline 1 is provided with a plurality of sections, two ends of each vacuum pipeline 1 are connected with a flow divider 12, each flow divider 12 can be composed of a multi-way vacuum pipeline 1 with a first permanent magnet 2, a mechanical arm for pushing the transport carrier 4 to change the direction can be further arranged in each flow divider, and each flow divider 12 is connected with the vacuum pipeline 1 and is used for dividing the transport carrier 4 in the vacuum pipeline 1 to the outside of the vacuum pipeline 1 system without influencing the internal operation of the vacuum pipeline 1;

the both ends of vacuum pipe 1 are passed through bleed-off line and are connected air extractor 8, and the tube coupling at vacuum pipe 1 both ends passes through pipeline closing door 3 and seals, forms two sealed chambeies, and air extractor 8 is connected with these two sealed chambeies, No. 2 permanent magnets include along 1 transport direction' S of vacuum pipe strip magnetic pole N utmost point, strip magnetic pole S utmost point that distributes, concrete: the upper permanent magnet is the S utmost point in vacuum pipeline 1, the lower floor permanent magnet is the N utmost point, it is the N utmost point to control the layer permanent magnet, produce the repulsion for the N utmost point to 4 outer magnetic poles of columnar transportation delivery vehicle, fix columnar transportation delivery vehicle 4 to vacuum pipeline 1 central point, specific permanent magnet arranges, magnetic pole direction and intensity can be adjusted as required, in order to transport delivery vehicle 4 fix to vacuum pipeline 1 central point can, receive the 4 gravity influence of the transportation delivery vehicle of carrying thing in addition, the upper permanent magnet can be the N utmost point or the S utmost point in vacuum pipeline 1, also can not set up.

Self-repairing liquid 8 is arranged in a tube layer of the vacuum tube 1, and when cracks and holes appear in the vacuum tube 1, the self-repairing liquid 8 flows out to block the cracks and the holes; the self-repairing liquid 8 comprises composite fibers, a metal sheet and polyurethane liquid which is subjected to oxidation hardening/hardening in the air, wherein the polyurethane liquid is fast-curing polyurethane glue; when crack and hole appear in the pipeline, 8 flows to pipeline leakage position of selfreparing liquid in the pipe layer, fibre body among them can be compiled the net in crack and hole department, block up the crack and the hole of pipeline, sheet metal among them can reach crack and hole position gathering along with the outflow of liquid, further reinforce crack and hole, quick setting polyurethane glue among them contacts with the air in pipeline leakage position department, take place the sclerosis, sheet metal gathers the solidification in the network structure that composite fiber and polyurethane liquid constitute and forms stable structure thereby the restoration pipeline leaks.

The transportation carrier 4 comprises a transportation pipe 41, a magnetic field shielding material 42 arranged on the inner wall of the transportation pipe 41 and light bearing plates 43 positioned at two ends of the transportation pipe 41, the second permanent magnet 5 comprises a tubular magnetic pole S pole and a tubular magnetic pole N pole which are respectively arranged on the inner wall and the outer wall of the transportation pipe 41, and the magnetic field shielding material 42 is made of iron-aluminum alloy and the like.

The CD-ROM drive engine accelerator 7 comprises a battery 71, a solar panel 72 and a laser emitter 73, the solar panel 72 and the battery 71 are arranged on the vacuum pipeline 1, the laser emitter 73 is arranged at the pipe joint of the vacuum pipeline 1 and distributed in a spiral shape, the solar panel 72 collects solar energy and converts the solar energy into electric energy through a solar controller to be stored in the battery 71 for the laser emitter 73 to use, the laser emitter 73 emits a large amount of laser to the light bearing plate 43 at the tail part of the transportation carrier 4 to generate a large amount of light pressure, so that the transportation carrier 4 is pushed to advance, the laser emitter 73 emits a large amount of laser to the light bearing plate 43 at the head part of the transportation carrier 4 to generate a large amount of light pressure, and the transportation carrier 4 is decelerated.

It should be noted that the invention adopts the noiseless CD-ROM engine accelerator 7 and the vacuum pipeline 1 with the first permanent magnet 2, and utilizes the solar panel 72 and the battery 71 laid above the pipeline to accelerate the transportation carrier 4, meanwhile, a CD-ROM engine accelerator 7 is innovatively arranged in the vacuum pipeline 1, the opening and closing of the pipeline closing door 3 is controlled by a pipeline closing control system, self-repairing liquid 8 is added in the middle of the pipe shell of the vacuum pipeline 1, the liquid will automatically expand when contacting air and water, blocking cracks and openings of the pipeline, further ensuring the vacuum condition in the pipeline, the repulsion force of the second permanent magnet 5 of the transportation carrier 4 and the first permanent magnet 2 in the vacuum pipeline 1 keeps the ordered running of the carrier accelerated under the vacuum condition through the characteristics of the permanent magnets, the direction and the strength of the magnetic poles can be adjusted as required so as to fix the carrier to the central position of the pipeline;

specifically, after the vacuum pipeline 1 and the flow divider 12 are assembled, a platform is established at the end part of the vacuum pipeline, the pipeline closing control system opens the pipeline closing door 3 of the starting end sealing cavity through the platform, the material or personnel in the transport carrier 4 are carried, after the carrying is finished, the pipeline closing control system closes the pipeline closing door 3, the air extractor 8 is started, the vacuum pipeline 1 is vacuumized, and the first permanent magnet 2 on the transport carrier 4 and the second permanent magnet 5 in the vacuum pipeline 1 repel each other, so that the transport carrier 4 can be suspended in the center of the vacuum pipeline 1, and the accelerated orderly operation of the transport carrier 4 under the vacuum condition is maintained;

the start end can be provided with a Gauss accelerator 6 for pushing the transport carrier 4 to move in an accelerating way, the transport carrier 4 can be accelerated by a plurality of CD-ROM engine accelerators 7 in the moving process, specifically, laser is emitted to a light bearing plate 43 at the tail end of the transport carrier 4 through a laser emitter 73, a large amount of light pressure generated pushes the transport carrier 4 to move in an accelerating way, when the transport carrier reaches the destination, a pipe cover can be controlled to be opened by a pipeline closing control system for blanking, if the material needs to be emitted to the outside air, a pipeline closing door 3 of a sealed cavity at the emitting end is controlled to be opened by the pipeline closing control system, the transport carrier 4 is accelerated to a first cosmic speed which can be separated from the earth, the transport carrier 4 is emitted to the space along the autorotation direction of the earth, the pipeline closing door 3 of the sealed cavity is closed after being emitted, and an air extractor 8 is started to vacuumize the sealed cavity, the influence on the vacuum degree of the vacuum pipeline 1 is avoided; meanwhile, bionics and hydrodynamics are utilized, a great number of launched carriers are utilized to form a goose channel, and a great number of substances can be continuously launched to reach the outer space.

When the transport carrier 4 is used, the transport carrier 4 can be stopped at different stations through the diverter 12, and the transport carrier 4 can be diverted to different vacuum pipelines 1 through the diverter 12 to change the launching track of the transport carrier.

Meanwhile, the invention can also be used for the manual transportation of materials among cities, and a large amount of materials and personnel are transported by the transportation carrier 4; due to the vacuum environment, the energy required for transporting the carrier 4 is extremely low, and the carrier can keep moving at high speed for a long time, and the required energy is only required for overcoming the difference between the earth gravitational potential energy. Thus, 1 gram of gasoline energy would be a person shipped from losa to beijing.

Example 2

As shown in fig. 6, for convenience of maintenance, the magnetic suspension vacuum pipeline carrying system of the present invention further includes a magnetic suspension track 9 and a maintenance carrier 10, which are disposed above the vacuum pipeline 1, wherein the magnetic suspension track 9 is provided with a fixed permanent magnet, the maintenance carrier 10 is provided with a suspended permanent magnet, the maintenance carrier 10 travels on the magnetic suspension track 9 in a suspended manner by repulsion between the fixed permanent magnet and the suspended permanent magnet, and the maintenance carrier 10 is used for transporting the single section of vacuum pipeline 1 to a damaged portion of the vacuum pipeline 1 to perform rapid repair and replacement work.

And the service carrier 10 is insulated with a vacuum layer structure in order to protect the contents of the carrier. Through the fulcrum, make the vacuum layer, play the purpose of heat preservation and isolated sound.

Example 3

The application direction of a magnetic suspension vacuum pipeline carrying system described in the embodiment 1 is as follows:

the magnetic suspension vacuum pipeline carrying system is used for long-distance rail transportation of personnel and materials, in the embodiment, the first permanent magnet 2 comprises three strip-shaped magnetic poles N which are respectively arranged at the bottom and two sides of an inner cavity of the vacuum pipeline 1, and the specific figure is 7.

It should be noted that, when the magnetic suspension vacuum pipeline carrying system is applied to long-distance rail transportation, energy can be greatly saved, and under a vacuum condition, the transportation carrier 4 can keep long-time high-speed operation, and the energy consumption is extremely low. The transportation carrier 4 floats in the vacuum pipeline 1 to run, and two ends of the transportation carrier are provided with repulsive magnetic poles to maintain the left-right balance of the transportation carrier, and the repulsive force and the gravity are balanced with each other, so that the transportation carrier is fixed in the middle of the pipeline to carry out acceleration movement without gravity, air resistance and friction force. A large amount of laser light is emitted to the tail of the transport carrier 4 through the optical drive engine accelerator 7 arranged at the pipe joint position, a large amount of light pressure is generated, and the transport carrier 4 is pushed to advance. The transport carrier 4 is continuously accelerated by the multiple optical drive engine accelerator 7, and when the transport carrier is accelerated to a required speed, the acceleration is stopped. The transport carrier 4 will keep moving at a constant speed at a high speed until the end. When the end point is approached, a backward resistance is generated through the position change of the magnetic field at the upper position and the lower position of the pipe joint. The vehicle is decelerated until it reaches zero, stopping at the end position. At the same time, a design in which the transport carrier 4 is separated from the payload may also be used. The transport carrier 4 continues to crawl at high speed taking the next row of payloads directly away.

The current cargo decelerates and stops at the platform. The basic flow is that the carrier enters the position of the platform magnetic suspension moving footpath and enters the suspension state. Personnel's goods and materials are logged in transportation delivery ware 4, close pipeline closing door 3 simultaneously, then enter into the sealed chamber of front end tube coupling, air extractor 8 is bled, guarantees that 4 position tube couplings of transportation delivery ware become the vacuum suspension state and passes through shunt 12 entering pipe-line system, then opens pipeline closing door 3, starts optical drive engine accelerator 7 and carries out the acceleration promotion to transportation delivery ware 4 rear end light-bearing board 43. Through a section of accelerating interval, the transport carrier 4 accelerates to a high-speed state, and is stable, silent and operates at a high speed. Then, the destination is about to be reached. The front end of the optical drive engine accelerator 7 decelerates the front end light bearing plate 43 of the transport carrier 4, and simultaneously, the upper and lower magnet changes of the pipeline are also utilized to form a deceleration section to decelerate the transport carrier 4. When the transportation carrier 4 finishes the speed reduction, the transportation carrier is stopped at the station through the flow divider 12, the outside of the pipeline system is directly branched, the internal operation of the vacuum pipeline 1 is not influenced, the pipeline closing door 3 of the sealing cavity of the rear end pipe joint is closed, air is injected, the transportation carrier 4 is driven out from the station, personnel and materials are driven out from the transportation carrier 4, and the transportation process is completed.

Example 4

The application direction of the magnetic suspension vacuum pipeline carrying system in the embodiment 1 is two:

the magnetic suspension vacuum pipeline carrying system is used for material transportation from the ground to the outer space, accelerates the transport carrier 4 to reach a first cosmic velocity, and transports a large amount of materials to the outer space at one time. In this embodiment, the first permanent magnet 2 includes four strip-shaped magnetic poles N respectively disposed at the top, the bottom, and both sides of the inner cavity of the vacuum tube 1, as shown in fig. 8.

It should be noted that the transport vehicle 4 is accelerated to a certain degree by the gaussian accelerator 6, and the transport vehicle 4 reaching the speed is diverted to a different vacuum pipe 1, i.e. a launching pipe, by the diverter 12. The transport carrier 4 is accelerated to reach a first space velocity through the optical drive engine accelerator 7 and then enters space, so that the purpose of transporting a large amount of materials to space at one time is achieved. After passing through the annular acceleration zone, the transport vehicle enters an exponential-shaped launch tunnel, and when the transport vehicle 4 enters the launch tunnel, the forward tapered tunnel-closing door 3 is opened and the transport vehicle 4 is launched into the air. Meanwhile, the pipeline closing door 3 of the rear pipe section is closed, and when the carrier arrives in the air, the front conical pipe cover is closed. The air extractor 8 extracts partial air entering the front end pipe joint, and the vacuum state of the pipeline is guaranteed.

Example 5

The application direction of the magnetic suspension vacuum pipeline carrying system in the embodiment 1 is three:

the magnetic suspension vacuum pipeline carrying system is applied to missile launching, wherein an optical drive engine accelerator 7 is arranged in a spiral shape, and a transport carrier 4 is arranged in a missile shape;

the missile is sealed in a transport carrier 4, the transport carrier 4 carries a large number of missiles to be thrown to a hitting position under the drive of an optical drive engine accelerator 7, and the magnetic suspension vacuum pipeline carrying system is also applied to space simulation experiments of space warships. In this embodiment, the first permanent magnet 2 includes a strip-shaped magnetic pole N disposed at the bottom of the inner cavity of the vacuum tube 1, as shown in fig. 9.

It should be noted that a large number of missiles are accelerated to a high speed by the missile-shaped transportation vehicle 4, and a large number of missiles can be thrown to the hitting position at one time by the goose channel effect. And a spiral CD-ROM engine accelerator 7 is adopted, an accelerating pipeline is positioned underground, and a large number of missiles accelerated to a certain degree are launched out through a flow divider 12. A plurality of emission holes are arranged in an external area, and an actual acceleration area is located underground or in a mountain body or sea. The missile can also be launched through a civil delivery system.

It is theoretically possible to accelerate the transport vehicle 4 to infinitely close to the speed of light, but for practical applications it will run at a lower speed than the first cosmic speed. The basic principle is to simulate the space vacuum environment on the earth, so that the optical drive engine accelerator 7 can accelerate the transport carrier 4 without friction, air resistance and gravity. Meanwhile, the vacuum magnetic suspension pipeline can be used for space simulation experiments of space warships and the like.

Example 6

The application direction of the magnetic suspension vacuum pipeline carrying system in the embodiment 1 is four:

the magnetic suspension vacuum pipeline carrying system is applied to the accelerated launching of a warplane;

the fighter plane can be enclosed in the transport carrier 4, when the transport carrier 4 is accelerated to a certain degree, the fighter plane is accelerated to be launched into the air, and the fighter plane is accelerated to be separated from the transport carrier 4 in the air, so that the acceleration time of the fighter plane can be greatly saved, the fighter plane can quickly land on the air, and the problems of large occupied area, obvious target and slow lifting of the traditional airport can be solved;

or the fighter is set to be a sealed space fighter, the bottom of the space fighter is provided with a light bearing plate 43, the speed is accelerated to a first cosmic speed through a circular channel optical drive engine, and the fighter enters the outer space to sail. In this embodiment, the first permanent magnet 2 includes a strip-shaped magnetic pole N disposed at the bottom of the inner cavity of the vacuum tube 1, as shown in fig. 9.

Example 7

The application direction of the magnetic suspension vacuum pipeline carrying system in the embodiment 1 is five:

the magnetic suspension vacuum pipeline carrying system is applied to the establishment of a space base; in this embodiment, the first permanent magnet 2 includes a strip-shaped magnetic pole S disposed at the top of the inner cavity of the vacuum tube 1, and three strip-shaped magnetic poles N disposed at the bottom and two sides of the inner cavity of the vacuum tube 1, as shown in fig. 10.

A large number of CD-ROM engine accelerators 7 (comprising batteries 71, solar panels 72 and laser emitters 73) run around the earth to form an earth-surrounding system, the transport carriers 4 emitted to the near-earth orbit through the vacuum pipelines 1 are accelerated, so that the second cosmic speed is achieved to be separated from the gravity of the earth, and the transport carriers 4 carry equipment required by a space base to the space, so that the possibility is provided for building the space base in China;

meanwhile, in order to solve the problem of real-time control of the operation of the near-earth optical drive engine accelerator 7 and a large number of transport carriers 4, the invention also provides a spherical optical chip system which operates around the earth and utilizes solar energy to carry out operation, and the spherical optical chip system can carry out real-time control and data processing on the optical drive engine accelerator 7 and the transport carriers 4. The basic principle is that the solar sail is unfolded after the transportation carrier 4 enters the space, and concentrated laser is emitted onto the solar sail through the energy stored by the solar cell 71, so that light pressure is formed, and the transportation carrier 4 is pushed to be separated from the earth in an accelerating mode. Meanwhile, the garbage on the space orbit can be remotely cleared.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.