CN104810586B - Electromagnetic wave fiber tube for bending and transmitting high-frequency electromagnetic wave information - Google Patents

Electromagnetic wave fiber tube for bending and transmitting high-frequency electromagnetic wave information Download PDF

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CN104810586B
CN104810586B CN201510237920.XA CN201510237920A CN104810586B CN 104810586 B CN104810586 B CN 104810586B CN 201510237920 A CN201510237920 A CN 201510237920A CN 104810586 B CN104810586 B CN 104810586B
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林国刚
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An electromagnetic wave fiber tube for bending transmission of high-frequency electromagnetic wave information is called an electromagnetic wave fiber tube and a magnetic fiber for short, and has the structure that an inward surface layer in the tube is an inner surface layer made of a metal material and a thin pipeline forming a metal surface, high-frequency electromagnetic waves carrying a large amount of information are transmitted on the metal surface of the pipeline in a linear, bent, branched and personalized laying path along the magnetic fiber in a reflection mode and a linear mode, an antenna is installed on the path of the high-frequency electromagnetic waves and penetrates through the inner part of the pipeline, a port and a branch port of the pipeline in a separation mode by using an insulating material, the antenna meets the requirement of sending, receiving and continuously transmitting the electromagnetic waves of equipment, meets the requirement of mass supply and demand information relation of various users, and reaches four-side utilization in a point-to-multipoint and multipoint point-to-point mode; the magnetic fiber can be used as a high-power line; the large information and the large power can be transported together on one magnetic fiber in a mode of combining electricity and communication, so that the environment with resource saving, emission reduction, simplicity and spaciousness is provided for people; the magnetic fiber is far larger than the optical fiber in information transmission amount, is simple and durable and is practical.

Description

Electromagnetic wave fiber tube for bending and transmitting high-frequency electromagnetic wave information
Technical Field
The information series of broadcasting, TV, communication, broadband, data, analog, etc. uses high-frequency electromagnetic wave as carrier to transmit information.
Background
Modern high-low frequency, such as below 800MHz or above, broadcast, television, communication, broadband information, data information, analog information, and other series of high-low frequency electromagnetic waves are used as carriers to transmit information, and the electromagnetic wave information is transmitted almost by using a double flat wire (such as a telecommunication network, which can be solved by using a double flat wire because of low loss of electromagnetic wave frequency) or by using a coaxial cable (such as a broadcast television network, which cannot be solved by using a double flat wire because of slightly higher electromagnetic wave frequency, otherwise, such electromagnetic wave carrier information is greatly attenuated and cannot be utilized, so that the coaxial cable transmission is researched to use the slightly higher frequency electromagnetic wave as carrier information); if the frequency of the electromagnetic wave is higher, the electromagnetic wave with the frequency is greatly attenuated by the coaxial cable, the transmission distance is short and cannot be utilized, in addition, the metal cable carries information (but not the electromagnetic wave) by changing current, the current change is determined that the high frequency cannot be formed in a conductor, and then the self-induction eddy current effect and an external wrapping insulating material can generate a conductive effect similar to capacitance under the action of high-frequency change current, so that a great amount of current is lost in transmission, and the signal is weakened or even incomplete, so the current cable cannot use the current information with the too high frequency; thus, high frequency, especially high electromagnetic wave frequency, is a short distance, and the electromagnetic wave can not be used with especially high frequency as bandwidth; up to now, wireless transmission is preferred because of the coaxial cable structure: the middle is a physical foaming object and a metal wire core, the metal is wrapped with a ground wire at the periphery, theoretically and practically, a plurality of amplifiers are needed in the middle to solve the problem that the electromagnetic wave is greatly attenuated in the coaxial cable, the cost, the maintenance amount and the failure rate are greatly increased, and the nature that the debt is tired and lagged is caused by a series of problems generated by a series of products with engineering cost, manpower, the maintenance amount, the failure rate and the like, … …). Thus, the twin flat wires and the coaxial cables are both transmitted as metal conductors by means of wires, and are essentially current-carrying, and these cables have electrical resistance. Or wireless electromagnetic wave transmits information (such as satellite information, iron tower, mobile phone, and other wireless electromagnetic wave transmit information), however, wireless electromagnetic wave transmits information well, the bandwidth of a series of electromagnetic waves has abundant electromagnetic wave as the channel number of carrier transmit information, especially adapts to high-frequency electromagnetic wave carrier operation information, has abundant electromagnetic wave channel number as the carrier transmit information quantity, meets each need, but is linear transmission, just like the original light, the invention fiber solves the problem of curve transmission of light, and the bandwidth of electromagnetic wave capable of curve transmission is narrow, is a limited channel number, and after broadcasting, the interference of electromagnetic wave with the same frequency is serious, and can not increase more channel numbers; the wireless high-frequency electromagnetic wave transmission is linear transmission, the transmission information is greatly limited, the wireless low-frequency electromagnetic wave transmission is midpoint station transformation transmission, but the channel number of the low-frequency electromagnetic wave is too limited, and the requirements of a large number of information times cannot be met. At present, for example, the loss is small and is the maximum advantage of optical fiber transmission, the loss is about 0.46dB/km at the wavelength of 1310nm and about 0.25dB/km at the wavelength of 1550nm, so that the comparison is reasonable and the loss is small when the optical transmitter is modulated outside 1550nm in long-distance transmission, and the loss of the 12 coaxial cable is about 40dB/km at the frequency of 500MHz, so that the loss of the optical fiber is reduced by hundreds of times compared with the loss of the coaxial cable. Therefore, optical fibers have to be borrowed to transmit from the light as an intermediate information carrier. However, the transmission of the optical fiber is limited by a high-power light source, optical frequency and the like such as laser, and the information quantity transmission of the informatization development cannot be met, short-distance information transmission utilizes a double-flat line and a coaxial cable to transmit electromagnetic waves as a carrier to transmit information, more electromagnetic waves with high frequency bandwidth are used as carrier operation information and are transmitted linearly, the electromagnetic waves cannot be transmitted in a turning way to transmit information as the carrier, especially if the optical fiber and the laser are used for linear transmission, the optical fiber and the laser are not invented, the optical carrier information transmission is too little, and the optical fiber quantity and the network quantity cannot be enriched as the optical fiber quantity and the network quantity are enriched as the present. The power and frequency of the light (such as laser light) of the information carried by the optical fiber are about 60 years in the optical fiber transmission technology, while the power and frequency of the electromagnetic wave are hundreds of years in the air transmission technology and are mature.
Disclosure of Invention
According to the above and the existing products, in any case, there is no wired electromagnetic wave device in which a pipe is formed by an inner surface layer made of metal inside an inward pipe, and the pipe is a path along which electromagnetic waves move from near to far in a reflection manner or a straight manner on the inner surface layer made of metal material inside the inward pipe, and the wired electromagnetic wave device is formed to allow the electromagnetic waves to flow in the pipe to form a channel for electromagnetic wave flow and to transmit information carrying information with respect to an arbitrary curve. Or the electromagnetic wave fiber tube of which the pipeline can be an air channel or the electromagnetic wave fiber tube of which the pipeline is filled with a solid channel made of nonmetal materials which are easy to transmit electromagnetic waves, or the electromagnetic wave fiber tube of which the pipeline is filled with nonmetal materials which are easy to transmit electromagnetic waves is seen as the solid channel by human eyes, and the electromagnetic waves pass through the electromagnetic wave fiber tube which is not solid or the electromagnetic wave fiber tube which is selective in frequency. The invention is to invent a product of the type in which electromagnetic waves are transmitted in such a way. For example, the steel pipes of metal type used at present are filled with liquid or fluid, such as water pipes, or are increased in stability, such as brackets, or are provided with wires, such as power lines, information transmission coaxial cables, and the like. Therefore, the electromagnetic wave fiber tube product is used for a path for enabling the electromagnetic wave to move from near to far in a reflection mode or a straight line mode.
The experiment and practice prove that the loss of electromagnetic wave information is larger, especially the higher the attenuation of the electromagnetic wave is, the better the metal is, the better the loss is, the electromagnetic wave transmission carrier is, the best is the loss, the source which can not be used or can not be used is reached, meanwhile, the essence that the coaxial cable, the double-flat cable and the stranded cable can not transmit the high-frequency electromagnetic wave is proved, simultaneously, the channel of the electromagnetic wave fiber tube is best in vacuum, the air or the gas substances filled in the air are also proved to be related, the smoother the channel of the electromagnetic wave fiber tube is, the larger the channel is, the better the electromagnetic wave transmission is, and the like, and the optical fiber has mandatory, restrictive, selective and free properties, and is far better than the optical fiber to carry information at present. The power and frequency of light is about 60 years in the optical fiber transmission technology, while the power and frequency of electromagnetic wave are hundreds of years old in the air transmission technology, and the electromagnetic wave fiber tube is used for transmitting information carried by electromagnetic wave, so that the number of users is satisfied by the mass of channels, and the electromagnetic wave fiber tube can conveniently punch holes on the electromagnetic wave fiber tube to transmit or receive information, while the optical fiber cannot.
Therefore, I specially researched and invent the problem that the electromagnetic wave with low and high frequency can be used as carrier operation information, so that the high and low electromagnetic wave transmission information can operate by transmitting the electromagnetic wave carrying the information in a relatively arbitrary curve (note: the relatively arbitrary curve transmission means that the electromagnetic wave fiber tube is not bent at an angle of 900 degrees, the bending of the electromagnetic wave fiber tube is the same as that of an optical fiber, the following is the same and is not described one by one), the bandwidth of a series of electromagnetic waves is enabled to have abundant channel number of the electromagnetic wave as the carrier transmission information and mature electromagnetic wave receiving and transmitting technology to be fully applied, the electromagnetic wave fiber tube particularly suitable for the high-frequency electromagnetic wave carrier operation information is fully played, the abundant channel number of the electromagnetic wave is used as the carrier transmission information quantity, the requirement of each is met, the purpose of each is achieved, the electromagnetic wave fiber tube is used for replacing the modern coaxial cable or the double flat wire, and the high-frequency electromagnetic wave as the carrier transmission information can not be used, for example, the electromagnetic wave with the frequency of more than 1GHz is transmitted by the electromagnetic wave fiber tube, a very large bandwidth is formed between the high-frequency electromagnetic waves as an extremely rich channel number and is fully utilized, the extremely rich channel number solves the problem of the channel number of the current bottleneck electromagnetic wave, and the extremely rich channel number electromagnetic wave is used as a carrier to transmit various information to all users, which is equivalent to the effect of the optical fiber of the invention.
An electromagnetic wave fiber tube for transmitting high-frequency electromagnetic wave information in a bending way is called an electromagnetic wave fiber tube for short and is also called a magnetic fiber for short. The structure of the electromagnetic wave fiber tube includes the following structures, but the same essence, that is, the inward surface layer inside the tube is the inner surface made of metal to form the tube, and the inward surface of the tube is the metal surface, for example, "1. an electromagnetic wave fiber tube for transmitting high-frequency electromagnetic wave information is bent, which is characterized in that: a bent electromagnetic fiber tube for transmitting high-frequency electromagnetic information is composed of a metal tube with an inward surface layer and a metal surface layer, a metal tube with an inward surface layer, a metal oxide layer on its metal surface, or a metal tube with a metal layer on its inward surface layer, and a straight or bent or branched pipeline with holes or holes for installing antenna or branch tubes, which are separated by insulating material and passing through the holes The metal parts of the antennas and the electronic products connected with the antennas are separated from the metal part of the pipeline by insulating materials, and the pipeline equipment required by the structure is an electromagnetic fiber pipe; the structure of the electromagnetic wave fiber tube is used for: the electromagnetic wave of the carried signal is concentrated on the inner surface layer made of the inward metal material in the pipeline of the electromagnetic wave fiber tube to form a transmission motion path from near to far in a reflection mode, a total reflection mode or a direct transmission mode, or the electromagnetic wave carrying the signal is concentrated on the oxide metal layer containing the metal inner surface of the metal material in the inward pipeline of the electromagnetic wave fiber tube in a reflection mode, a total reflection mode or a direct transmission mode to form a transmission motion path from near to far, the effective power and the effective magnetic flux of the electromagnetic wave are increased by the path, the electromagnetic wave is selectively controlled to go to wired electromagnetic wave circuit equipment, the path formed by the electromagnetic wave fiber tube can be directly, flexibly and separately used for transporting the signal carried by the electromagnetic wave to a required place, the pipeline is a channel through which electromagnetic waves flow in a reflection mode or a direct injection mode, and electromagnetic waves are concentrated to form electromagnetic wave flow; on the antenna installed on the electromagnetic fiber tube, the user or equipment can receive or transmit or transfer or enter or exit the electromagnetic wave carried signal in the electromagnetic fiber tube by the antenna to operate, so that the signal can reach the respective purpose, the user or equipment can meet the respective needs, the structure can resist the interference of the electromagnetic wave carried by the electromagnetic wave in the electromagnetic fiber tube outside the electromagnetic fiber tube, and the electronic product can be prevented from being damaged by the current or lightning current flowing from a remote place along the electromagnetic fiber tube. 2. The electromagnetic wave fiber tube for transmitting high-frequency electromagnetic wave information in a bending manner according to claim 1, characterized in that: the electromagnetic wave fiber tube is characterized in that more than two metal male buses are inserted into and connected with each other to form a pipeline, wherein the inward surface layer of the pipeline is a metal surface; or more than two metal male wires and metal buses, and mutually inserting and connecting every two metal male wires and metal buses to enclose that the inward surface layer inside is a metal surface and forms a pipeline; the pipeline with the structure is easy to be distorted and dislocated or the pipeline dislocated by bending is not deformed to form a straight, bendable and branching pipeline path, a pipeline with a metal oxide layer can be arranged in the pipeline, a hole or a pipeline with a hole can be formed in the pipeline with the path, an antenna or a branch pipeline path port can be arranged in the pipeline by the hole or the pipeline with the hole and passing through the pipeline in a separating way through insulating materials, or an antenna is arranged in the branch pipeline path, the metal parts of the antennas and electronic products connected with the antennas are separated from the metal parts of the pipeline by the insulating materials, and the pipeline equipment required by the structure is an electromagnetic wave fiber pipe; the structure of the electromagnetic wave fiber tube is used for: the structure of the electromagnetic wave fiber tube is used for: the electromagnetic wave of the carried signal is concentrated on the inner surface layer made of the inward metal material in the pipeline of the electromagnetic wave fiber tube to form a transmission motion path from near to far in a reflection mode, a total reflection mode or a direct transmission mode, or the electromagnetic wave carrying the signal is concentrated on the oxide metal layer containing the metal inner surface of the metal material in the inward pipeline of the electromagnetic wave fiber tube in a reflection mode, a total reflection mode or a direct transmission mode to form a transmission motion path from near to far, the effective power and the effective magnetic flux of the electromagnetic wave are increased by the path, the electromagnetic wave is selectively controlled to go to wired electromagnetic wave circuit equipment, the path formed by the electromagnetic wave fiber tube can be directly, flexibly and separately used for transporting the signal carried by the electromagnetic wave to a required place, the pipeline is a channel through which electromagnetic waves flow in a reflection mode or a direct injection mode, and electromagnetic waves are concentrated to form electromagnetic wave flow; on the antenna installed on the electromagnetic fiber tube, the user or equipment can receive or transmit or transfer or enter or exit the electromagnetic wave carried signal in the electromagnetic fiber tube by the antenna to operate, so that the signal can reach the respective purpose, the user or equipment can meet the respective needs, the structure can resist the interference of the electromagnetic wave carried by the electromagnetic wave in the electromagnetic fiber tube outside the electromagnetic fiber tube, and the electronic product can be prevented from being damaged by the current or lightning current flowing from a remote place along the electromagnetic fiber tube. 3. The electromagnetic wave fiber tube for transmitting high-frequency electromagnetic wave information in a bending manner according to claim 1, characterized in that: the electromagnetic wave fiber pipe for transmitting high frequency electromagnetic wave information is bent, and the structure of the electromagnetic wave fiber pipe is that on the basis of the structure of the electromagnetic wave fiber pipe and the position of the electromagnetic wave fiber pipe, the inward surface layer of part of the electromagnetic wave fiber pipe can also be a movable annular pipeline consisting of annular metal, and the pipeline is a channel for the signal-carrying electromagnetic wave to flow in a reflecting or straight line manner, so that the pipeline can be laid to a certain extent in a free bending way. 4. The electromagnetic wave fiber tube for transmitting high-frequency electromagnetic wave information in a bending manner according to 1, 2 or 3, which is characterized in that: the described electromagnetic wave fiber tube structure is used for limiting the flow path of the electromagnetic wave carrying signals in the electromagnetic wave fiber tube in a reflection mode or a straight line mode and selecting the flowing range of the electromagnetic wave, resisting the electromagnetic wave interference outside the electromagnetic wave fiber tube by using the electromagnetic wave fiber tube, and intensively transmitting the electromagnetic wave carrying information by using the electromagnetic wave fiber tube, so that the effective power and the effective magnetic flux of the electromagnetic wave are increased, a user or equipment sends or transmits or receives the information carried by the electromagnetic wave, a series of electromagnetic waves carrying information, the frequencies of which are high and low electromagnetic waves have very large bandwidth and rich electromagnetic wave channel numbers, are transmitted and utilized in the electromagnetic wave fiber tube, and the utilization of the electromagnetic wave carrying information, particularly the high frequency, is met by the mass channel numbers; the electromagnetic wave carrying a series of information such as broadcasting, television, communication, broadband information, data information, analog information and the like is transmitted in the electromagnetic wave fiber tube; the smoothness degree, the bending angle and the size of the channel of the electromagnetic wave fiber tube ensure that the electromagnetic wave is continuously transmitted to a remote place along the channel of the electromagnetic wave fiber tube in a reflection mode or a straight line mode to form electromagnetic wave flow, and the generated electromagnetic wave flow is utilized as much as possible. 5. The electromagnetic wave fiber tube for transmitting high-frequency electromagnetic wave information in a bending manner according to 1, 2 or 3, which is characterized in that: the described structure of the electromagnetic wave fiber tube is suitable for the electromagnetic wave fiber tube to be installed in a straight bendable and branching way, particularly, the electromagnetic wave fiber tube transmits high-frequency electromagnetic waves as carriers to operate various information, the high-frequency electromagnetic waves can be directly bent and branched to reach all places by the electromagnetic wave fiber tube and operate various information, the problem that the transmission of the high-frequency electromagnetic waves in the air is straight line transmission is solved, the electromagnetic wave fiber tube solves the problem that the high-frequency electromagnetic waves can be directly bent and branched to transmit the carried information in a bending way, and the electromagnetic wave fiber tube can prevent the interference problem of the high-frequency electromagnetic waves transmitted in the air; the electromagnetic fiber tube is used for replacing the modern coaxial cable and the double-flat cable which are utilized at low frequency, the problem that the coaxial cable and the double-flat cable cannot be used in a line device which takes high-frequency electromagnetic waves as a carrier to transmit information is solved, the electromagnetic fiber tube is used as the line device which transmits the high-frequency electromagnetic waves, a very large bandwidth is arranged among the high-frequency electromagnetic waves as an extremely rich channel number to be fully utilized, and the electromagnetic waves with the extremely rich channel number are used as the carrier to transmit various information to the utmost. 6. The electromagnetic wave fiber tube for transmitting high-frequency electromagnetic wave information in a bending manner according to 1 or 2, characterized in that: the electromagnetic fiber tube is characterized in that in addition to the structure and the application of the electromagnetic fiber tube, in order to save metal materials, the average diameter value of the inner diameter of the metal pipeline is within 7cm and is made into a specific determined value to be made into the electromagnetic fiber tube, air is filled in a channel of the electromagnetic fiber tube, and the electromagnetic fiber tube is used for line equipment which takes high-frequency electromagnetic waves above 1GHz as carriers to transmit information; the smoothness, the bending angle and the channel size of the channel inner surface of the electromagnetic wave fiber tube ensure that electromagnetic waves are transmitted to a remote place in a reflection mode or a straight line mode along the channel of the electromagnetic wave fiber tube continuously to form electromagnetic wave flow, any cross section formed by the metal surface layer in the electromagnetic wave fiber tube can be in any shape, and when the electromagnetic wave carrier information is required to be transmitted in the tube, the metal surface structure of the inner channel only influences the transmission of the electromagnetic wave carrier information to be smaller and better, and particularly the electromagnetic wave back reflection is smaller. 7. The electromagnetic wave fiber tube for transmitting high-frequency electromagnetic wave information according to 1, 2 or 6, which is characterized in that: the electromagnetic wave fiber tube for transmitting high-frequency electromagnetic wave information is bent, the structure of the electromagnetic wave fiber tube is the same as that of the electromagnetic wave fiber tube, and the structure of the electromagnetic wave fiber tube is used for: besides the use of the electromagnetic wave fiber tube, when the information-carrying electromagnetic wave flows through the electromagnetic wave fiber tube for transmission, the electromagnetic wave fiber tube also has the function of conveying a power line, only the metal part of the electromagnetic wave fiber tube is directly connected with the equipment for conveying the power line, and the hole on the electromagnetic wave fiber tube is separated from the antenna by a good insulating material, except that the power line of an electronic product needs to be supplied with power from the electromagnetic wave fiber tube, all places where the electronic product equipment is contacted with all the electromagnetic wave fiber tubes and all the antennas need to be completely separated by the insulating material, so that a large amount of special power line materials, accessory materials and manpower are saved, the environment is purified, the environment is beautified, and the energy is saved. 8. The electromagnetic wave fiber tube for transmitting high-frequency electromagnetic wave information according to 1, 2 or 7, which is characterized in that: the electromagnetic fiber tube for transmitting high-frequency electromagnetic wave information in a bending way is characterized in that in addition to the structure and the application of the electromagnetic fiber tube, in order to save metal materials, in operation, a specific determined value is taken within 1.75cm of the inner diameter of a used metal pipeline to be made into the electromagnetic fiber tube, a channel of the electromagnetic fiber tube is filled with air, and small solid drifts and attachments are few on the inner wall of the channel of the electromagnetic fiber tube as much as possible in the channel of the electromagnetic fiber tube, so that the electromagnetic fiber tube has the capability of transmitting electromagnetic waves, and is used as line equipment for transmitting information by taking high-frequency electromagnetic waves above 10GHz as a carrier; the smoothness, the bending angle and the channel size of the inner surface of the channel of the electromagnetic wave fiber tube ensure that electromagnetic waves are continuously transmitted to a remote place along the channel of the electromagnetic wave fiber tube in a linear mode in a reflection mode to form electromagnetic wave flow, and only when the information of the electromagnetic wave carrier is required to be transmitted in the tube, the smaller the information transmission of the electromagnetic wave carrier is influenced by the metal surface structure of the inner channel, the better the information transmission of the electromagnetic wave carrier is, and particularly the backward reflection of the electromagnetic wave is smaller. 9. The electromagnetic wave fiber tube for transmitting high-frequency electromagnetic wave information in a bending manner according to 1 or 2, characterized in that: the electromagnetic wave fiber tube for bending and transmitting high-frequency electromagnetic wave information is structurally characterized in that the electromagnetic wave fiber tube is used for concentrating the same information-carrying electromagnetic waves by a plurality of small electromagnetic wave fiber tubes and converging the same information-carrying electromagnetic waves in a large electromagnetic wave fiber tube to form a strong series of electromagnetic waves with rich high-frequency channels and directly irradiating the electromagnetic waves to a metal reflecting surface on a reflecting surface satellite in the sky, and the electromagnetic waves are directly reflected to the ground on the metal reflecting surface in a reflecting mode to be received by a ground user for utilization, so that the user information content is met, and the satellite of electronic product equipment with the limitations of small power, short service life, narrow electromagnetic wave frequency and the like of a transponder on the existing satellite is cancelled. The electromagnetic wave fiber tube for transmitting high-frequency electromagnetic wave information according to claim 1 or 2, wherein: the electromagnetic fiber tube for transmitting high-frequency electromagnetic wave information in a bending way is characterized in that in addition to the structure and the application of the electromagnetic fiber tube, in order to save metal materials, a specific determined value is taken within 0-0.5 cm from the average diameter value of the inner diameter of the metal pipeline to be made into the inner diameter of the electromagnetic fiber tube, air or a substance which is filled with electromagnetic waves easy to transmit is freely filled in a channel of the electromagnetic fiber tube, and the electromagnetic fiber tube is used for line equipment which takes the high-frequency electromagnetic waves above 50GHz as a carrier to transmit information; the smoothness, the bending angle and the channel size of the channel inner surface of the electromagnetic wave fiber tube ensure that electromagnetic waves are transmitted to a remote place in a reflection mode or a straight line mode along the channel of the electromagnetic wave fiber tube continuously to form electromagnetic wave flow, any cross section formed by the metal surface layer in the electromagnetic wave fiber tube can be in any shape, and when the electromagnetic wave carrier information is required to be transmitted in the tube, the metal surface structure of the inner channel only influences the transmission of the electromagnetic wave carrier information to be smaller and better, and particularly the electromagnetic wave back reflection is smaller. "
Therefore, in connection with the above structure and use, the following specific structures and limited examples for illustrating several electromagnetic wave fiber optic tubes and for use in and with specific embodiments represent products illustrating the same nature of the above structure and use, and it is absolutely impossible to exemplify all the different example products, but the different example products are the same nature — it is understood that the above structure and use are the same. Therefore, there are the following. 1. The inward surface layer inside the tube is an inner surface made of metal to form a pipeline, and electromagnetic waves flow in the pipeline to form a channel for electromagnetic wave flow, such as 1 in fig. 1, 6 in fig. 2, 4 and 7 in fig. 5. (for example, it is noted that the inner surface of metal forms a pipe, electromagnetic waves are transmitted and flowed in the metal pipe, that is, electromagnetic wave flow is transmitted and flowed in the metal pipe, it is actually that the electromagnetic waves continuously move from near to far on the metal surface in a reflection mode or straight line, and the position is moved, so called electromagnetic wave flow, electromagnetic wave flow for short, it is the formation and concept of electromagnetic wave flow, if the electromagnetic wave flow carries information, it is called electromagnetic wave flow information, electromagnetic wave flow for short, the inner surface of metal forms a pipe, and the electromagnetic wave flows in the pipe, so it is better than water pipe, the plastic pipe is the same as water pipe, the electromagnetic fiber pipe is the metal pipe and the electromagnetic wave flows, it is a common analogy, there is the word "fiber" that the word is limited in front of the pipe, it is the meaning of small pipe, of course the large metal pipe can also transmit electromagnetic wave flow, the pipe is also a fiber pipe, a metal pipeline regardless of the size, the uneven inner inward surface surrounded by metal is a surface formed channel made of metal, the inward surface layer inside the plastic pipeline is an inner surface formed pipeline made of metal, and the inward surface layer inside the pipe is an inner surface formed pipeline made of metal. The fiber is added in front of the tube, the meaning is developed in the direction of a thin tube, the cost is reduced, and the resource is saved. The metal pipes are generally called metal pipes, such as copper pipes, metal pipes with inner surface layers formed by metal pipes or pipes surrounded by metal or pipes with inner surface layers formed by a thin metal layer, etc., and pipes with inner surfaces formed by metal substances or plated metal materials are generally called metal pipes. The metal pipeline refers to a pipeline which is made of metal compounds or metal pure products or metal mixtures and the like of the metals such as iron chromium manganese aluminum magnesium potassium calcium strontium barium copper lead zinc tin cobalt nickel mercury cadmium bismuth silver platinum ruthenium rhodium palladium iridium beryllium lithium rubidium titanium zirconium hafnium vanadium tantalum tungsten gallium indium gallium germanium rhenium lanthanum neodymium samarium gadolinium dysprosium holmium erbium thulium ytterbium scandium yttrium zirconium hafnium tantalum and the like and has a surface layer inward inside the pipe, the cross section of the pipe can be in any shape, as long as the inner surface layer made of metal forms a pipeline, the materials of the middle layer or the outer surface layer of the pipe, the bracket and the like are not limited, as long as the inner surface layer made of metal forms a metal pipeline, as long as the electromagnetic waves can flow (transmit) in the pipeline to form a channel of electromagnetic wave flow, which is called a metal pipe for short, the structure is generally called as an electromagnetic wave fiber tube, and the electromagnetic wave fiber tube is operated when electromagnetic waves are transmitted in the metal tube. (note: experiments prove that some pipelines made of nonmetal can be used, but the pipelines must be smooth, and a problem is that the diameter and the smooth distance of the same pipeline are the same, the electromagnetic wave loss of the pipelines made of nonmetal is too large, the pipelines made of nonmetal are not recommended, the pipelines made of metal also have the relationship of metal content of what components, and the transmission of electromagnetic waves in the pipelines is not the same, but is far more the same than the pipelines made of nonmetal, which is not described one by one below). For example, the electromagnetic wave fiber pipe is a railway rail, a cavity pipeline is arranged in the middle of the rail, the cavity pipeline is also a metal pipeline, the electromagnetic wave fiber pipe is also an electromagnetic wave fiber pipe, the electromagnetic wave flows in the metal pipeline and is also transmitted in the metal pipeline; the electromagnetic wave is continuously reflected or linearly moved on the metal surface to generate a path of electromagnetic wave flow, the path is a fiber tube, such as a copper tube, a metal tube, a steel ring tube, a metal tube, and other similar reasoning metal tubes, the structure of the metal tube is generally called an electromagnetic wave fiber tube, and is also used as an electromagnetic wave fiber tube, as long as the inner surface of the metal tube is a metal tube, the electromagnetic wave flow path is formed, and as long as the copper tube, the steel tube or the steel ring tube is provided with a hole on the tube, a receiving antenna or a transmitting antenna or two antenna receiving or transmitting antennas are arranged on the tube, and the electromagnetic wave carrying information flows through the path, so that the electromagnetic wave fiber tube replaces the electromagnetic wave as a carrier to transmit broadcast, television, communication, broadband information, data information, and the like, A series of electromagnetic waves carrying information such as analog information and the like flow through a channel, the electromagnetic waves of the electromagnetic waves continuously transmit the reflection mode or the linear mode from near to far along the channel of an electromagnetic wave fiber tube in a reflection mode or a linear mode, the reflection mode is short, the following same aims are fulfilled, the required information reaches respective target points, the smoothness degree, the bending angle and the channel size of the inner surface of the channel of the electromagnetic wave fiber tube ensure that the electromagnetic waves continuously transmit the electromagnetic waves to far along the channel of the electromagnetic wave fiber tube in the reflection mode to form electromagnetic wave flow, the generated electromagnetic wave flow is used as much as possible, the series of electromagnetic waves have large bandwidth and rich electromagnetic wave channel numbers to serve as electromagnetic wave carriers to carry out information transmission, the required information is met, and the following similar aims are not described one by one. 2. Or the electromagnetic wave fiber tube is structured in that more than two male and female metal wires are connected with each other two by two to form a metal channel by a material which is empty in space or filled with nonmetal and easily transmits electromagnetic waves, and the electromagnetic wave carrying information flows through the metal channel, for example, the metal cross-sectional schematic materials of fig. 6, 7, 8, 9 and the like are combined with each other two by two to form a material which is empty in space or filled with nonmetal and easily transmits electromagnetic waves to form a metal channel, wherein, as one of fig. 10, the electromagnetic wave fiber tube and the like allow the electromagnetic wave carrying information to flow through the channel, and the electromagnetic wave fiber tube replaces the electromagnetic wave as a carrier to transmit a series of electromagnetic wave carrying information such as broadcasting, television, communication, broadband information, data information, analog information and the like to flow through the channel. 3. Or the electromagnetic wave fiber tube is structured in that, on the basis of the above (the structure of the electromagnetic wave fiber tube of 1 st and 2 nd), the electromagnetic wave fiber tube can be passed through from the outside to the pipeline space to form a receiving or transmitting antenna or the receiving or transmitting antenna through two ports of the electromagnetic wave fiber tube, so that the receiving or transmitting electromagnetic wave outside can be used as an information carrier for retransmission, only the metal of the channel of the electromagnetic wave fiber tube can not be directly connected when the antenna passes through the electromagnetic wave fiber tube, the insulating material is used for isolating, such as 17 in fig. 13, and the current or lightning current flowing along the metal body of the electromagnetic wave fiber tube at a distance can be prevented from flowing to the electronic product through the receiving or transmitting antenna to damage the electronic product, which means that the large television network in a long-term maintenance has the large piece of television network damaged by the lightning current flowing through the antenna or cable, and the small television network in a county city is damaged by the lightning current induced by the coaxial cable and is abandoned, the loss of the country is too large, and all receiving antennas or transmitting antennas must be insulated from the electromagnetic wave fiber tubes by insulating materials. Or through the receiving or transmitting antenna of two ports of the electromagnetic wave fiber tube, the receiving or transmitting antenna can be directly placed in the electromagnetic wave fiber tube, or can be directly placed outside the electromagnetic wave fiber tube, the conical shape of the bell mouth made of the metal sheet is shown in figure 3, the conical tip is provided with a port which is separated from the pipeline port of the electromagnetic wave fiber tube by a small distance directly or through an insulating material, the electromagnetic wave reflected by the conical shape of the bell mouth made of the metal sheet continuously transmits the electromagnetic wave flow into the electromagnetic wave fiber tube along the conical channel thereof in a reflection mode, the electromagnetic wave outside flows into the electromagnetic wave fiber tube, otherwise, the electromagnetic wave of the electromagnetic wave fiber tube flows out of the outside. Or through the receiving or transmitting antennas at two ports of the electromagnetic wave fiber tube, the receiving or transmitting antennas can also be indirectly connected and placed outside the electromagnetic wave fiber tube, and the reflecting surface made of metal sheet (such as the existing satellite receiving reflecting surface antenna) makes the electromagnetic wave reflected by the reflecting surface antenna pass through the focusing point at the center of the pipeline port of the electromagnetic wave fiber tube, so that the electromagnetic wave transmits the electromagnetic wave flow into the electromagnetic wave fiber tube in a reflecting mode, or the electromagnetic wave reflected by the reflecting surface antenna is transmitted into the bell-mouth antenna made of metal sheet, and then the electromagnetic wave channel received by the cone antenna of the bell-mouth antenna made of metal sheet transmits the electromagnetic wave flow into the electromagnetic wave fiber tube in a reflecting mode (this method is mainly used for the method that the diameter of the electromagnetic wave fiber tube is smaller). In short, the external electromagnetic waves flow into the electromagnetic fiber tube, the electromagnetic wave reflected by the electromagnetic wave received by the electromagnetic fiber tube continuously transmits the electromagnetic wave flow into the electromagnetic fiber tube in a reflection mode along the channel of the electromagnetic fiber tube, the external electromagnetic waves flow into the electromagnetic fiber tube, and vice versa. 4. Or the electromagnetic wave fiber tube is structured in that on the basis of the above, the inward surface layer of the inner part of the electromagnetic wave fiber tube can also be a movable annular pipeline formed by annular metal, so that the pipeline can be bent and laid to a certain extent, and the channel can transmit the electromagnetic wave carrying information.
In summary, the above-mentioned electromagnetic wave fiber tube has an overall structure that the inward surface layer of the electromagnetic wave fiber tube is formed by combining various forms of metals to form an inner surface to form a metal pipe, the metal pipe is a cavity surrounded by metal layers, the metal pipe is a channel for the circulation of electromagnetic waves, the electromagnetic waves carrying information can circulate through the channel, and the outside can pass through the electromagnetic wave fiber tube to form a receiving or transmitting antenna in the space of the pipe as shown in fig. 13, or the inlet and outlet of the electromagnetic wave fiber tube are provided with receiving or transmitting antennas as shown in fig. 3, the receiving or transmitting electromagnetic waves outside can be used as information carriers and then transmitted in the electromagnetic wave fiber tube to form a channel as shown in fig. 1, and the solution is satisfied according to the current mature regulations and technologies of the number of electromagnetic wave channels and the electromagnetic wave transmitting power: 1. the method has the advantages that a series of electromagnetic waves have large bandwidth and rich electromagnetic wave channel numbers as electromagnetic wave carriers to carry out information transmission, namely, the bandwidth is enlarged, the more rich electromagnetic wave channel numbers are increased as carrier transmission information quantity, namely, the bandwidth is increased, the requirement of each step is met, and the problems of large information flow and small channel number of a large database and the like are solved; 2. a series of low-power electromagnetic waves carrying information are concentrated to form a high-power electromagnetic wave flow channel; 3. the electromagnetic wave fiber tube is used to solve the problem of transmitting high-frequency electromagnetic waves with large information quantity, solve the problem that a series of information-carrying high-power electromagnetic waves circulate to transmit longer distance at one time and reach one step, solve the problem of using abundant electromagnetic wave channel number to meet the requirement of users, solve the problem that the electromagnetic waves can not transmit bending, and the like, even the high-frequency electromagnetic waves are transmitted along a straight line when being used as carrier operation information and can not select and transmit the high-frequency electromagnetic waves in a bending mode, practice proves that the high-frequency electromagnetic waves with 12GHz can be transmitted for more than 3.7 kilometers at one time in the electromagnetic wave fiber tube and can be bent to reach the destination, and the electromagnetic wave information can be freely utilized in the middle, the electromagnetic wave fiber tube replaces the device which can not transmit information by using the high-frequency electromagnetic wave as a carrier in the modern coaxial cable, can be in place at one time, ensures that the electromagnetic wave continuously transmits to a remote place by a reflection mode along the channel of the electromagnetic wave fiber tube to meet the requirement that each required information reaches the respective destination point, ensures the smoothness degree, the bending angle and the channel size of the channel inner surface of the electromagnetic wave fiber tube to ensure that the electromagnetic wave continuously transmits to the remote place by a reflection mode along the channel of the electromagnetic wave fiber tube to form an electromagnetic wave flow and generates the electromagnetic wave flow with the least loss, ensures that the series of electromagnetic waves have the large bandwidth and rich channel number as the electromagnetic wave carrier to transmit information, the information required for satisfying each condition is achieved.
It is only necessary to have the function of transmitting power to the electromagnetic wave fiber tube, and it should be noted that the metal part of the electromagnetic wave fiber tube is directly connected with the power transmission equipment, and the metal part of the electromagnetic wave fiber tube indirectly isolates the equipment transmitting the electromagnetic wave from the equipment receiving the electromagnetic wave through the insulating material, such isolation as 17 of fig. 13 is particularly important, and it is particularly noted that the process is very strict, or the inlet and outlet of the electromagnetic wave fiber tube are installed with receiving and transmitting antennas and electronic products, and any places such as the electronic products are not electrically conducted with the electromagnetic wave fiber tube, and are isolated by the insulating material at a certain distance, particularly high voltage, the insulating material such as ceramics for electromagnetic wave loss is sacrificed, and the electromagnetic wave fiber tube or the electronic products with the length of several meters are made to connect the two sides of the electromagnetic wave fiber tube or the electronic products, and the electromagnetic wave is continuously circulated through the insulating material tube such as ceramics to isolate the high voltage, if the low voltage is separated by several millimeters, (the insulation method like 17 of fig. 13 is particularly important, especially careful, and the process is very strict) the antenna and the metal part of the electromagnetic wave fiber tube cannot be directly connected; meanwhile, the electronic product is prevented from being damaged by current or lightning current flowing along the electromagnetic wave fiber tube from a distance; meanwhile, the method is also a method for continuously transmitting electromagnetic waves by two voltage-transition connection two ends of the electromagnetic wave fiber pipe which is switched from the electromagnetic wave fiber pipe with high voltage to the electromagnetic wave fiber pipe with low voltage, for example, a method for connecting an insulating material such as ceramics as a pipeline by applying electromagnetic waves and separating high voltage and low voltage. In a word, when the electromagnetic wave fiber tube also has the function of transmitting electric power, the special wire material for electric power and the accessory material thereof are saved so as to use manpower, purify the environment, beautify the environment, save energy and protect the environment.
Description of the drawings: FIG. 1 is a schematic diagram of an electromagnetic fiber tube, wherein 1 is a metal pipeline and is also an electromagnetic fiber tube; FIG. 2 is a path from the outside through an electromagnetic wave fiber tube to a piping space thereof, and 2 is a path of a hole; FIG. 3 is a funnel receiving antenna, 3 is a large round port of the funnel, 4 is a small round port of the funnel receiving antenna, and 5 is an electromagnetic wave fiber tube; FIG. 4 is a produced bent steel pipe 6, which is a metal pipe and is an electromagnetic wave fiber pipe; FIG. 5 is a bent metal pipe made by cutting a straight steel pipe, 7 is a metal pipe, and is also an electromagnetic fiber pipe; FIG. 6 is a metal line in the male bus bar, 8 is the male line, also a metal line; FIG. 7 is a male wire formed by fixedly connecting two cylindrical metal wires along a line, 10 is a male wire, and is also a metal wire; FIG. 8 is a metal bus bar made of two grooves, 11 is a bus bar, and is also a metal wire; FIG. 9 is a metal line of the male bus bar, 11 is the male bus bar, and is also a metal line; fig. 10 is a cross-sectional view of an electromagnetic wave fiber tube made of male and female bus bars, 12 is a metal pipe made of male bus bars, which is also an electromagnetic wave fiber; FIG. 11 shows the principle of satellite reflection with a reflecting surface, 13 a reflecting surface, 14 an electromagnetic wave; FIG. 12 is a schematic diagram of the launching of an electromagnetic wave fiber tube onto a reflecting surface satellite, 15 is an electromagnetic wave fiber tube, and 16 is an electromagnetic wave; FIG. 13 is an enlarged schematic view of the nearest part of the path from the outside through the electromagnetic fiber tube to the piping space thereof, 17 is an insulating material, 18 is the opening edge of the electromagnetic fiber tube, 19 is an antenna for receiving or transmitting at a part of the outside of the electromagnetic fiber tube, 20 is a port for the antenna for receiving or transmitting at the outside of the electromagnetic fiber tube to enter the electromagnetic fiber tube, 21 is an antenna for receiving or transmitting at a part of the inside of the electromagnetic fiber tube, and FIG. 13 is also a schematic view of forming a receiving or transmitting antenna or an inlet and outlet of the electromagnetic fiber tube for installing the receiving or transmitting antenna without metallic communication with the electromagnetic fiber tube; fig. 14 is a sectional view of an electromagnetic wave fiber tube composed of a male wire and a bus bar, 22 is a spring ring fixed to the outer surface of the electromagnetic wave fiber tube, 23 is a male wire composed of two cylindrical metal wires fixedly connected along a line, and corresponds to the male wire of fig. 7, and 24 is a metal bus bar made of two grooves, and corresponds to the bus bar of fig. 8.
The specific implementation scheme is as follows: the structure for implementing the electromagnetic wave fiber tube comprises the following components: the specific implementation is illustrated by only a few examples, which cannot be all exemplified, and one of the products or methods is implemented as follows: (I) the metal tube is directly used as the electromagnetic wave fiber tube
For example, 1000 (or more than 1000 or selecting the number and diameter according to the requirement to make the length and size of the electromagnetic wave fiber tube) stainless steel tubes with the length of 5 meters and the diameter value of 5cm are purchased. (this is also to take a specific definite value of the same stainless steel tube or copper tube within 7cm, such as refrigerator used as refrigeration copper tube or aluminum tube or plastic pipe in one to one pasting aluminum foil metal tube, equivalent to the plastic pipe in the thin layer of metal plating), only according to the finite length calculation in electromagnetic wave power, in electromagnetic wave fiber tube diameter size specific data, electromagnetic wave fiber tube inner surface smoothness degree data and electromagnetic wave fiber tube bending degree data, etc., the common calculation unit length of electromagnetic wave fiber tube electromagnetic wave carried information loss rate, calculate the effective length rate can be transmitted far, the following similar, not in a single description. According to relevant provisions of patent laws, specific embodiments are written, reports such as principles, theories and the like are not written, otherwise the content of the specification is very long, i only select one of the specific embodiments of a large number of experiments and practice practices to write, and here, i select metals such as market copper pipes, steel pipes and the like to be made into various electromagnetic fiber pipes for experimental verification. Steel pipes are mainly selected in the description to illustrate specific embodiments). Selecting a stainless steel pipe with the diameter of 5cm, wherein each stainless steel pipe is 5 meters long and totally 1000 stainless steel pipes, welding every two stainless steel pipes into a straight pipe, and grinding the inner part of a joint to be flat to achieve the following steps: the smoothness, the bending angle and the channel size of the inner surface of the channel of the electromagnetic wave fiber tube ensure that the electromagnetic waves are limited in the channel of the electromagnetic wave fiber tube in a reflection mode and move from near to far to form electromagnetic wave flow and increase the effective power and the effective magnetic flux of the electromagnetic waves, which are shown in figure 1.
If the electromagnetic wave transmission line is a curved line, as shown in fig. 5, the section of the steel pipe is cut into two elliptical shapes, and the length of the steel pipe column is made to have one side length and one side short, and only according to the bending degree, i select one of the following stainless steel pipes with any bending composition, and change the electromagnetic wave transmission line carrying information into a specific implementation scheme of any bending transmission path, wherein the selection method is one of the following methods: A. the metal bent pipe with different curvatures of the inner and outer diameter circular arcs can be directly selected in the market, generally, the larger the diameter of the bent metal pipe with the larger diameter of the inner and outer diameter circular arcs is, the better the diameter is, or as shown in the above two kinds of examples of specific embodiment schematic diagrams of fig. 4, the smaller the diameter of the inner and outer diameter circular arcs is, the larger the electromagnetic wave transmission and bending transmission loss of the inner pipe of the metal pipe is, i directly buy and sell the bent stainless steel pipe with the inner pipe diameter of 5cm and the inner pipe diameter of 5.5m curvature respectively in the market of no steel pipe, as shown in the uppermost small diagram of fig. 4, thus greatly reducing the processing time and difficulty; B. or the metal reflection surface of the port of the electromagnetic wave fiber tube which is reduced in a certain proportion and enables the electromagnetic wave focusing point to go in the other direction is placed on the port of the tail end of the previous electromagnetic wave fiber tube and welded and ground, namely, the existing 'satellite receiving reflection surface antenna' is arranged on the reflection surface which is reduced again in a certain proportion and the port of the tail end of the previous straight electromagnetic wave fiber tube, the previous electromagnetic wave is reflected on the reflection surface to change the direction, the direction of the electromagnetic wave is changed by arranging the direction of the other electromagnetic wave fiber tube on the reflection focus point of the reflection surface, as shown in the schematic diagram of the lowest specific embodiment of fig. 4, I select a small direct-broadcasting reflection surface (explanation of the small reflection surface: the reflection surface is formed by the current satellite receiving reflection surface which is reduced in a certain proportion and is made into the reflection surface with the size), the diameter of the major axis of 8.5cm and the minor axis of the previous electromagnetic wave fiber tube, and change the other side On the port of the tail end of the other electromagnetic wave fiber tube, i, in order to seal the electromagnetic wave fiber tube well, i cut the tail end of the electromagnetic wave fiber tube multiple times (the tail end of the electromagnetic wave fiber tube is actually and completely calculated and drawn to be cut, and certainly, the tail end of the electromagnetic wave fiber tube is best when being manufactured into a die, and finally the tail ends of the two electromagnetic wave fiber tubes are combined with the edges of the same size as the edges of the section of the edge of the small reflecting surface selected by i, and are welded and ground flat, so that the electromagnetic wave fiber tube with the bent structure is called as a reflection bent electromagnetic wave fiber tube for short; C. or the radius of the long side of the area of the elliptic surface at the two ends of the section cutting is related, i choose the radius of the long side of the area of the elliptic surface at the two ends of the section cutting to be equal correspondingly, such as the long diameter (written language is the diameter of the long axis, the same up and down, but not), the short diameter (written language is the diameter of the short axis, the same up and down, but not), 7cm (the same up and down, but not), the short diameter), 5cm, as shown in fig. 5; D. selecting elliptical surfaces at two ends of the section truncation, wherein the included angle between the elliptical surfaces at two ends of the section truncation and the edge of the stainless steel pipe column is 750 degrees; E. thus, a plurality of stainless steel tubes (which are simply referred to as steel tubes from top to bottom and are not repeatedly described) which are cut into elliptical shapes at two ends are related, i select a plurality of 50 stainless steel tubes which are cut into elliptical shapes at two ends, and the like, which are not in a bent electromagnetic fiber tube similar to the production embodiment; in short, the pipeline made by the method such as ABCDE and the like and cut into the stainless steel pipe with two ends being circular arcs or the reflection bending electromagnetic wave fiber pipe or the elliptical stainless steel pipe and the like is generally called the bending electromagnetic wave fiber pipe or the oblique cylindrical pipeline, and one of the specific embodiments such as ABCDE and the like is selected to change the bending transmission of the electromagnetic wave energy. To give another concrete example, for good processing, i select and make the area of the inclined plane of two oblique cylindrical pipelines the same, make things convenient for two oblique cylindrical pipelines to correspond the interface good welding and seal, like this, two stainless steel pipes of several oblique cylindrical pipelines weld each other and make up, just solved the local problem of stainless steel pipe bend, like the crooked stainless steel pipe of figure 5 style, especially like the folk crooked chimney pipe. Certainly, stainless steel pipes with various curvatures produced in a factory at one time are better, as shown in fig. 4, the stainless steel pipes are convenient to selectively install, the pipe bending technology is mature at present and is not repeated, if I also selects a steel pipe bend made of an arc steel pipe with an outer arc diameter of 10m and an inner arc diameter of one eighth of 9.95m, namely, the regular bent steel pipe with an outer arc diameter of 10m and an inner arc diameter of one eighth of 9.95m and an arc section diameter of 5cm replaces the ACDE to be made into a standard steel pipe bend of the bent steel pipe, and the total number of the produced bent stainless steel pipes is 20. The included angle of the extension lines of the centers of the steel pipes of two oblique cylindrical pipelines is 1400 degrees, so that the channel of the stainless steel pipe curve of the manufactured electromagnetic wave fiber pipe is ensured, and the electromagnetic wave is continuously transmitted to a remote place along the channel of the stainless steel pipe curve of the electromagnetic wave fiber pipe in a reflection mode to form electromagnetic wave flow. In order to prevent electromagnetic waves from being reflected back when passing through a bent part and prevent the edges formed by the cross sections from being ground flat, the pipe cavity of the steel pipe is bent, and the inner pipeline of the 5000-meter stainless steel pipe is formed like a folk bent cigarette pipe. (of course, F, or choose to use two kinds of different diameter stainless steel pipes, make two kinds of different diameter stainless steel pipes of oblique cylindrical pipeline and the stainless steel pipe of big oblique cylindrical pipeline just in time the inside diameter is equivalent to the outside diameter of the stainless steel pipe of small oblique cylindrical pipeline, limit big oblique cylindrical pipeline can put into small diameter oblique cylindrical pipeline's stainless steel pipe, and the interface one-to-one, make the stainless steel pipe of one end outside edge of small oblique cylindrical pipeline weld one large ring oblique cylindrical pipeline's stainless steel pipe inside edge make the large ring, can make another oblique cylindrical pipeline's stainless steel pipe of one end corresponding interface of the small ring, make the activity can stretch into the crooked stainless steel pipe of the crooked stainless steel pipe of the certain arbitrary circular arc each other two by two, quite similar can stretch into the crooked stainless steel pipe of the antenna function that can receive, the stainless steel pipe bend is convenient to move and mount freely, and the pipeline is internally provided with the stainless steel pipe ring to block transmission of electromagnetic waves. Only attention is paid to the fact that the steel pipes of the oblique cylindrical pipelines are mutually welded to form the bending degree of the center of the stainless steel pipe column, namely the included angle of extension lines of the centers of the stainless steel pipes of every two oblique cylindrical pipelines cannot be smaller than the angle of 1050. From the analysis of integral, if the relative ratio of the long side and the short side of the stainless steel tube of each two oblique cylindrical pipelines is as close as 1, the more the stainless steel tubes of each two oblique cylindrical pipelines are connected, the better the stainless steel tube of each oblique cylindrical pipeline is, the bend of the stainless steel tube is similar to a circle, as the bent metal pipeline of the uppermost schematic diagram of fig. 4 can be changed into in fig. 5, at this time, a produced bent steel tube is sold in the market and welded on a straight stainless steel tube, and the bent electromagnetic fiber tube is also bent at the bent part of the electromagnetic fiber tube). In addition, the larger the pipe at the bend of the electromagnetic fiber is, the better the pipe is. Thus, the 5000-meter internal pipeline with the diameter of 5cm and the bent straight stainless steel pipe is the electromagnetic wave fiber pipe, wherein the internal pipeline consists of 50 stainless steel pipe bends or 20 stainless steel pipe bends with circular arc stainless steel pipes at the inclined cylindrical pipeline and the straight stainless steel pipe, which is the simplest electromagnetic wave fiber pipe, the stainless steel pipe is called the electromagnetic wave fiber pipe, and other similar metal pipelines are called the electromagnetic wave fiber pipes, such as copper pipes, aluminum pipes and the like, which are collectively called metal pipes (the same as the above and are not repeated). If a small hole is drilled on the stainless steel pipe, such as 2 in fig. 2 (or the stainless steel pipe welded with the small hole can be connected therein), and the method as 12 in fig. 13 is also used for installing a receiving antenna or a transmitting antenna of an electronic product in the electromagnetic wave fiber pipe, 17 in fig. 13 is separated by an insulating material, when electromagnetic waves carrying information flow in the pipeline of the 5000-meter stainless steel pipe, the 5000-meter stainless steel pipe is the electromagnetic wave fiber pipe. As for other stainless steel pipes of various lengths or various bent stainless steel pipes or stainless steel pipes of a diameter size, etc., it is sufficient that the stainless steel pipes are bent to the same extent as the optical fibers (from a certain requirement, the bending smoothness of the electromagnetic wave fiber pipe is not as strict as the optical fibers, and if the bending is certainly good with the smooth degree of the optical fibers, as for the bent stainless steel pipe composed of the steel pipes for implementing a section of the oblique cylindrical pipe), and it is only possible to implement embodiments similar thereto, but it is not necessary to describe the same as the copper pipe, the aluminum pipe, etc. This is the simplest electromagnetic wave fiber tube, as shown in fig. 1, just like the optical fiber, but the electromagnetic wave fiber tube made by me is inconvenient to install, and such an electromagnetic wave fiber tube, or an electromagnetic wave fiber tube made by the male and female metal wires, is replaced by the male and female metal wires as follows.
The electromagnetic wave carrying information flows through the pipeline of the stainless steel pipe with the length of 5000 meters, the electromagnetic wave fiber pipe is a pipeline formed by the inner surface layer made of metal, which is the inward surface layer of the inside of the pipe, the pipeline is a channel for the flowing of the electromagnetic wave, namely the electromagnetic wave carrying information flows through the pipeline, and the electromagnetic wave as carrier information flows through the pipeline, for example, the specific embodiment: 1, arranging a transmitting antenna at one end of an electromagnetic wave fiber tube, and putting the transmitting antenna in the electromagnetic wave fiber tube, as shown in 4 of figure 3, paying attention to the fact that the antenna is not in contact with the electromagnetic wave fiber tube and is separated by an insulating material, the antenna or a lead passes through the nearest place of a stainless steel tube and is separated by the insulating material, and the stainless steel tube is welded and sealed by a stainless steel tube skin (the sealing is to reduce partial electromagnetic waves and avoid waste and excessive interference of other electromagnetic waves) or is completely sealed, installing an electromagnetic wave receiving antenna at the other end of the electromagnetic wave fiber tube to receive information of the electromagnetic waves, installing the receiving antenna as the transmitting antenna, and realizing that the 5000-meter electromagnetic wave fiber tube transmits the electromagnetic waves as carrier information; the transmission of the electromagnetic wave of the No. 90 direct broadcast satellite in an electromagnetic wave fiber tube made of a stainless steel tube in a total reflection mode is realized.
2, if a plurality of small holes for measuring surface are made on the 5000 m electromagnetic wave fiber tube at any place along the length of the electromagnetic wave fiber tube as 2 in figure 2, the hole can not be too large, generally the diameter of the round hole is less than 0.5cm, (note that the hole can not have metal projection on the inner surface of the electromagnetic wave fiber tube, which affects the smoothness degree of the inner surface of the electromagnetic wave fiber tube, especially the smaller the electromagnetic wave fiber tube needs to pay attention to the small process parameters), the electromagnetic wave receiving antenna is inserted into the electromagnetic wave fiber tube, the insertion length is 0.75cm as the receiving antenna, then the place where the receiving antenna passes through the round hole on the electromagnetic wave fiber tube is separated by insulating material as shown in figure 13 and figure 2, such as insulating material plastic, the metal of the receiving antenna can not be conducted with the metal of the electromagnetic wave fiber tube, the receiving antenna can receive the electromagnetic wave information transmitted in the electromagnetic wave fiber tube. On the contrary, the antenna can be used as a transmitting antenna similarly, but not necessarily, it is described herein (note also that a, the metal body on the inner surface of the electromagnetic wave fiber tube should be isolated by an insulating material where the metal part of the antenna is fixed with the electromagnetic wave fiber tube, for example, the hole of the electromagnetic wave fiber tube through which the antenna passes is shown in fig. 13, of course, the antenna tip can not contact with the inner wall of the electromagnetic wave fiber tube, it is also possible to use an insulating material such as plastic for the receiving antenna, but it is not suggested to use the high frequency electromagnetic wave to affect because if too many antennas are included in the electromagnetic wave fiber tube, the transmission quality of the electromagnetic wave in the electromagnetic wave fiber tube is affected, i.e., the loss is increased, and the information behind is blocked, B, the negative electrode or the positive electrode of the electromagnetic wave transmitting antenna, the electromagnetic wave receiving antenna and the electronic component causing the electromagnetic wave to transmit or receive the information, etc. cannot be substantially electrically conducted with the metal body on the inner or outer surface of the electromagnetic wave fiber tube, that is, the insulating material is used for isolating a certain distance, the effect is better, the lightning strike current and other currents are prevented from damaging electronic products, and meanwhile, the electromagnetic wave fiber tube can be used as a power wire in addition, the same is applied below). The electromagnetic wave fiber tube is used for transmitting electromagnetic waves as carrier information, and the method 1 and the method 2 are also realized, for example, the electromagnetic wave fiber tube replaces the electromagnetic waves to be used as a carrier for transmitting a series of information-carrying electromagnetic waves such as broadcasting, television, communication, broadband information, data information, analog information and the like to pass through a channel of the electromagnetic wave fiber tube, so that the electromagnetic waves are transmitted to a distance in a reflection mode along the channel of the electromagnetic wave fiber tube continuously, the required information reaches each destination point, the smoothness degree, the bending angle and the channel size of the channel inner surface of the electromagnetic wave fiber tube ensure that the electromagnetic waves are transmitted to the distance in a reflection mode along the channel of the electromagnetic wave fiber tube continuously to form electromagnetic wave flow, the loss of the generated electromagnetic wave flow is as small as possible, and the series of electromagnetic waves have very large bandwidth and rich channel number and are used as electromagnetic wave carriers for information transmission, the information required for satisfying each condition is achieved. The stainless steel pipe is equivalent to an electromagnetic wave fiber pipe, the average diameter value of the inner diameter of the electromagnetic wave fiber pipe is made by taking a specific determined value within 7cm, the metal pipe and the like consisting of the stainless steel pipe with the diameter of 5cm and a common bus are taken as representatives of the metal pipe and represent the embodiment of the electromagnetic wave fiber pipe, or the metal pipe representing metal alloy represents the electromagnetic wave fiber pipe, such as aluminum pipe, the inner surface layer of the metal pipe with the inward surface layer is provided with aluminum oxide or copper pipe, the inner surface layer of the metal pipe with the inward surface layer is provided with copper oxide and the like and also is a metal pipe, also is an electromagnetic wave fiber pipe and is a magnetic fiber, the lower surface and the upper surface are provided with the layer, and the description is omitted, in order to prevent other substances in the metal pipe from entering and blocking the transmission of electromagnetic wave information, for example, a mouse enters the pipeline of the electromagnetic wave fiber, substances which are easy to pass through in a proper pipeline in the electromagnetic wave fiber pipe are usually installed, the plastic material blocks a plurality of places in the pipeline of the electromagnetic wave fiber tube, and the like (the upper part and the lower part are not explained and are not repeated); in order to save metal materials, the smoothness degree, the bending angle and the size of the channel of the electromagnetic wave fiber tube ensure that the electromagnetic waves are continuously transmitted to a remote place along the channel of the electromagnetic wave fiber tube in a reflection mode to form electromagnetic wave flow, the loss of the generated electromagnetic wave flow is as small as possible, the average diameter value of the inner diameter of the pipeline of a certain section of the electromagnetic wave fiber tube is made into a small value as possible, the average diameter value of the certain section is determined only according to needs, copper pipes are used as the same, and the like, and the bent part of the copper pipe is burnt and bent by a welding gun flame; in addition, the average diameter of the inner diameter of the pipeline at the bending part can be larger than or smaller than 7cm, i take a bending stainless steel pipe with the diameter of 5cm, the cross section of any cross section formed by the inner metal surface layer can be in any shape, only when the electromagnetic wave carrier information is required to transmit information in the pipe, the smaller the influence of the inner channel metal surface structure of the pipe on the transmission of the electromagnetic wave carrier information is, the better the transmission of the electromagnetic wave carrier information is, especially, the technical parameters of the channel surface of the inward metal surface layer of the electromagnetic wave fiber pipe should be paid more attention to when the electromagnetic wave carrier information with high frequency is used for transmitting information in the channel: the smoothness, the bending angle and the channel size ensure that the influence of the channel structure on electromagnetic wave transmission is as small as possible. (or if the outer edge of one end of the cross-section elliptic corresponding interface of the cross-section elliptic steel pipe is welded with a cross-section elliptic stainless steel pipe sleeve of a large-point steel pipe, one end of the cross-section elliptic corresponding interface of the other cross-section elliptic stainless steel pipe can be sleeved with a movable end capable of movably changing the curvature of a stainless steel pipe bend, the two stainless steel pipes form the corresponding stainless steel pipe bend with any arc in pairs, and the stainless steel pipe ring in the stainless steel pipe blocks the transmission of electromagnetic waves, which is '4');
3, the antenna can also be directly placed outside the electromagnetic wave fiber tube, the cone of the horn mouth made of metal sheet is shown in fig. 3, the funnel antenna inputs the electromagnetic wave signal into the electromagnetic wave fiber tube for transmission, the specific implementation method is: i here adopt make the bottom surface with diameter 5m round with new stainless steel sheet, the middle is empty, the height is a 10m cone (namely equivalent to a big steel sheet funnel), the tip is the diameter 4cm round, the tip round mouth puts into one end in the pipeline mouth of this 5000 meters electromagnetic wave fiber tube (for the convenience of narration, this 5000 meters electromagnetic wave fiber tube is called the electromagnetic wave fiber tube for short, the same below), and separate the electromagnetic wave fiber tube with insulating material, fix with the bracket and get up, the pipeline mouth of the electromagnetic wave fiber tube is separated with insulating material such as plastic parcel of material with the place that the round mouth of the tip contacts, fix with the bracket again and get up. This big steel sheet funnel is called electromagnetic wave signal reception funnel, also called the antenna, also called the leaky bucket antenna, for example, the terminal surface of the wide-mouth of electromagnetic wave signal reception funnel is to number 9 direct broadcast satellite, let the straight line of the centre of a circle of the wide-mouth one end of electromagnetic wave signal reception funnel and this receiving funnel's most advanced centre of a circle aim at number 9 direct broadcast satellite, electromagnetic wave signal reception funnel just can receive number 9 direct broadcast satellite signal of today, let this number 9 direct broadcast satellite signal get into the electromagnetic wave fiber tube internal transmission, the equal direct broadcast satellite is the transmitter, funnel receiving antenna, also called the antenna, electromagnetic wave fiber tube (be like this electromagnetic wave fiber tube that 5000 meters steel pipe made) regard as the carrier transmission broadcast, TV with the retransmission electromagnetic wave that the concentrated reception number 9 direct broadcast satellite signal of this funnel (antenna) got into the electromagnetic wave fiber tube internal transmission. The cone of the bell-mouthed cone receives electromagnetic waves of satellite signals of No. 9 direct broadcasting satellites, the electromagnetic waves of the signals are transmitted in the electromagnetic wave fiber tube, and the electromagnetic wave receiving antenna which is already installed in the electromagnetic wave fiber tube receives electromagnetic wave information in the electromagnetic wave fiber tube (as shown in the figure 2, the antenna is shown in the figure 13, for example, the antenna inserted into a plurality of small holes of a measuring surface at any position along the length of the electromagnetic wave fiber tube receives the signals) as shown in the figure. For example, the specific implementation method (experimental method) is as follows: the circuit board of frequency converter (also called high frequency head or LNB or outdoor unit) received by many outdoor direct broadcasting satellites and small antenna of frequency converter are taken out together and put in the hole on the side of electromagnetic wave fiber tube to receive satellite signal of No. 9 direct broadcasting satellite in electromagnetic wave fiber tube, i.e. the small antenna of frequency converter is put in the circular hole with diameter below 0.15cm on the electromagnetic wave fiber tube and separated by insulating material, the circuit board of frequency converter is separated from the electromagnetic wave fiber tube by insulating material surface, such as insulating paper, the other surface of circuit board of frequency converter is covered by metal cover, so that the small antenna and frequency converter can be installed on the whole electromagnetic wave fiber tube, or the frequency converter is directly put on the other end of electromagnetic wave fiber tube, and the open end of frequency converter is aligned with the electromagnetic wave fiber tube. Then, the output end of the frequency converter is directly welded on a high-frequency head in the satellite receiver (in practice, the mounting method of the frequency converter is the most advanced, for example, an outdoor high-frequency head and an indoor high-frequency head are completely integrated and placed in a room or a high-frequency head in the satellite receiver to form a whole), which is the most original (experimental method) method for receiving electromagnetic waves of satellite signals of the current number 9 direct broadcasting satellite, and the electromagnetic wave fiber tube is bent to select a user to arrive at the user's home. If the outdoor tuner and the indoor tuner of the satellite receiver are integrated (new product), especially the problem that the original antenna limits the user consumption, the problem that the high-frequency electromagnetic wave can be transmitted only in a straight line and can be transmitted in a curve at present, the problem that the channel number of the electromagnetic wave is limited, the problem that the channel is freely selected, and a series of problems are solved by solving the problems that the original antenna does not need double local oscillator tuners, does not need more reflecting surface antennas (or funnel antennas) and does not need K-shaped electronic switches, for example, thousands of users in a house or millions of users in a street use an electromagnetic wave signal receiving funnel to solve the problem that an electromagnetic wave fiber tube instead of a-5 or-9 coaxial cable can be used as a power line, the maintenance fault rate and the equipment quantity of the equipment and the quantity of laid lines are greatly reduced, more importantly, more outdoor satellite reflecting surface antennas (or funnel antennas) and outdoor frequency converters are not needed, the outdoor frequency converter is further changed into an indoor frequency selector to directly receive information in an electromagnetic wave fiber tube, and the middle part is directly converted into a medium frequency by photoelectric conversion or the high frequency is directly converted into the medium frequency, so that the integration of an outdoor tuner and an indoor tuner is realized (because the electromagnetic wave fiber tube is implemented, a series of electronic product revolution technologies outside the electromagnetic wave fiber tube are not triggered after the electromagnetic wave fiber tube is implemented, otherwise, the outdoor electronic product is only generally implemented, and the direct physical evidence of the high-frequency electromagnetic wave which is similar to a direct broadcast satellite and has the frequency below 1GHz (including the 1GHz of the local level) or above is taken as an information carrier, received or transmitted in various modes in the electromagnetic wave fiber tube or can be directly and flexibly transmitted by various routes is proved by experiments and practical application (namely 1, a series of electromagnetic waves have large bandwidth and rich electromagnetic wave channel number and are taken as the electromagnetic wave carrier to carry out information transmission, the number of more abundant electromagnetic wave channels is increased to be used as a carrier for transmitting information, so that the requirement of each channel is met, and the problems of large information flow and small number of channels of a large database and the like are solved; in addition, the result of the 5000 m electromagnetic fiber with straight bending and branch and the result of the antenna receiving satellite information about 4GHz of Xinnuia are the same, and the repeated information is not repeated; 2. a series of high-power electromagnetic waves carrying information flow through a channel, the transmission attenuation of high-frequency electromagnetic waves in a coaxial cable or a double flat line is broken, so that the coaxial cable cannot utilize the high-frequency electromagnetic waves to be transmitted, an electromagnetic fiber tube is used at present, the problem of transmitting the high-frequency electromagnetic waves with large information quantity is solved by the electromagnetic fiber tube, the problems of one-step circulation and one-step location of the series of high-power electromagnetic waves carrying information are solved, the problem of using abundant electromagnetic wave channel numbers to meet user requirements and the problem that the electromagnetic waves cannot transmit bending are solved, even the high-frequency electromagnetic waves cannot be transmitted in a bending mode because the high-frequency electromagnetic waves are transmitted along a straight line when being used as carrier operation information, the electromagnetic waves are transmitted in the air and are interfered, and the electromagnetic wave fiber tube can be used for solving the problems of selecting the high-frequency electromagnetic waves to be transmitted in the bending mode and preventing the interference of the air transmission electromagnetic waves, the electromagnetic fiber tube is used for replacing a modern coaxial cable device which cannot transmit information by taking high-frequency electromagnetic waves as a carrier, the electromagnetic waves can be transmitted to a far place in a reflection mode along a channel of the electromagnetic fiber tube continuously, the required information can reach respective destination points, the smoothness degree, the bending angle and the channel size of the inner surface of the channel of the electromagnetic fiber tube ensure that the electromagnetic waves are transmitted to the far place in the reflection mode along the channel of the electromagnetic fiber tube continuously to form electromagnetic wave flow, the loss of the generated electromagnetic wave flow is reduced as much as possible, the series of electromagnetic waves have large bandwidth and abundant electromagnetic wave channel numbers and are used as electromagnetic wave carriers for information transmission, and the required information can be met; 3. the electromagnetic wave fiber tube is used for simultaneously collecting a plurality of pieces of information of the transmitted electromagnetic wave to form a series of high-frequency electromagnetic wave frequencies in or above 1GHz level which are strong and carry the information, the high-frequency electromagnetic wave frequencies are directly shot to the convex reflecting surface of the overhead reflecting surface satellite and are directly on the ground in a reflecting mode, so that a user receives the electromagnetic wave, the series of electromagnetic waves have very large bandwidth and abundant electromagnetic wave channel numbers are used as electromagnetic wave carriers to transmit the information, the abundant electromagnetic wave channel numbers are increased to be used as carrier transmission information quantity to meet the needs of the user, the problem that under the very limited conditions of power utilization, equipment and the like on the overhead satellite, the high-frequency electromagnetic wave frequencies in or above 1GHz level which can transmit the carried information are directly reflected to various users on wide and hundreds of landforms on the ground from the ground to the air is solved, the maintenance failure rate of the equipment and the equipment quantity and the line laying quantity are greatly reduced, the problem that we published my published < comprehensive broadband scheme for researching satellite and terrestrial broadcast television information > on page 189 of journal No. 1 of < western broadcast television > on 01/05/2015 is solved), especially as the invention of the optical fiber, the mature laser frequency for the optical fiber is too narrow and hurts people, the frequency bandwidth of the electromagnetic wave for the electromagnetic fiber is too wide and the mature technology does not hurt people, and the structure and the application as 1 or 2 are achieved, which are the same from top to bottom and are not described (detailed enough). It is desirable to coordinate the development. If the satellite signal of the No. 9 direct broadcast satellite in the electromagnetic fiber tube is weak, the wide-mouth circular surface of the electromagnetic wave signal receiving funnel and the height of the electromagnetic wave signal receiving funnel antenna are increased, or a plurality of funnel antennas or a plurality of satellite reflecting surfaces or a plurality of antennas are connected in parallel to intensively enhance the information quality (namely a plurality of antennas are centralized or transmitted), a river is formed by a great number of rivers, and water drops form the sea, so that the maintenance failure rate of equipment, the equipment quantity and the line laying quantity are greatly reduced, and people can ask about that the electromagnetic wave information is strong and can not be received and decoded, other people can completely reduce the receiving antenna of the electromagnetic wave information or reduce the information quality of the electromagnetic wave by other materials (such as filtering the electromagnetic wave by physical foam or diffuse reflection, and the like or reducing the order number and multiple of an information amplifier and the like), this is where the average user is close to the point of emission and the user should consider the requirements to be met by the quality of electromagnetic waves at particularly distant locations. The electromagnetic wave signal receiving funnel antenna or the reflector antenna (hereinafter, collectively referred to as antenna) may be installed on a room or on the ground, preferably on the ground, to further protect against lightning, wind, etc. (note that the lower end of the electromagnetic wave signal receiving funnel is often provided with a plurality of water holes to prevent rain and remove water). In addition, attention is paid to ensure that the electromagnetic waves of the electromagnetic wave receiving funnel ceaselessly form electromagnetic wave current to the tip end of the electromagnetic wave receiving funnel in a reflection mode and are transmitted into the electromagnetic fiber tube. Therefore, the whole electromagnetic wave fiber pipe is transmitted all the way and the signal is obtained by utilizing any hole punching, so that the method is very good in effect. (or, in addition, I also implement the metal circular tube (also called the feed source dish and feed source metal tube that the satellite signal receives) of the frequency converter (also called the tuner) that receives with the direct broadcast satellite of the outdoor unit and remove, let the small aerial of the tuner expose totally, let the corresponding position of two small aerials put into the small hole on the side of electromagnetic wave fiber tube, let two small aerials enter the electromagnetic wave fiber tube directly, so more convenient to install), if weld the aerial in its electromagnetic wave fiber tube with the electric iron with the circuit board of the frequency converter, pay attention to discharge static electricity and temperature and electric power, otherwise can shock bad electronic product, this is the problem that we maintained for a long time and installed and pay attention to. Note: the tip of the cone is provided with a port which is separated from the pipeline port of the electromagnetic wave fiber tube by a small distance directly or through an insulating material, so that the electromagnetic wave reflected by the cone of the horn-shaped port made of the metal sheet continuously transmits the electromagnetic wave to the electromagnetic wave fiber tube along the conical channel in a reflection mode to form an electromagnetic wave flow, the external electromagnetic wave flows into the electromagnetic wave fiber tube, and otherwise, the electromagnetic wave of the electromagnetic wave fiber tube flows out of the electromagnetic wave tube. Or through the receiving antenna or the transmitting antenna at two ports of the electromagnetic wave fiber tube, the receiving antenna or the transmitting antenna is connected through the reflecting surface made of metal sheet and is placed outside the electromagnetic wave fiber tube, the electromagnetic wave reflected by the reflecting surface is just placed at the center of the pipeline port of the electromagnetic wave fiber tube through the focusing point, the electromagnetic wave reflected by the electromagnetic wave received by the electromagnetic wave fiber tube is continuously transmitted into the electromagnetic wave fiber tube along the channel of the electromagnetic wave fiber tube in a reflecting mode, the external electromagnetic wave flows into the electromagnetic wave fiber tube, otherwise, the electromagnetic wave of the electromagnetic wave fiber tube flows out of the outside. For example, the existing satellite reflecting surface and a tuner on the existing satellite reflecting surface are well installed and completely debugged (for example, a reflecting surface antenna with more than 2m (including 2 m) is preferably used for directly receiving satellite signals of a No. 9 direct broadcast satellite, a reflecting surface antenna with 2m which is used for experiments and practical applications is also adopted for directly receiving satellite signals of a No. 9 direct broadcast satellite, and the like), then, the tuned tuner is removed again, the center of the port surface at one end of the electromagnetic wave fiber tube is placed at the center of the electromagnetic wave focus reflected by the satellite reflecting surface (namely, at the disk opening of the tuner, where the electromagnetic wave enters), and the port surface at one end of the electromagnetic wave fiber tube is just opposite to the satellite reflecting surface, the electromagnetic wave information is reflected to the focus through the reflecting surface, and then the information enters the electromagnetic wave fiber tube for retransmission, which is very simple. If the end face of the electromagnetic wave fiber tube is small (i make 5cm diameter electromagnetic wave fiber tube is directly used), the implementation method as described above is to make a funnel type small antenna on the end face of one end of the electromagnetic wave fiber tube, so that the funnel type small antenna firstly receives the satellite signal of number 9 direct broadcast satellite reflected by the reflecting surface antenna of 2m, and then the funnel type small antenna transmits the satellite signal to the electromagnetic wave fiber tube (note that the height of the funnel type small antenna is far larger than the diameter of the wide-mouth circle, such as 8cm wide-mouth diameter, the funnel type small antenna with the height of 20cm is horizontally placed and merged at the original folded tuner by taking two circle centers as a straight line, and the leakage-proof funnel type small antenna blocks the information of the reflecting surface antenna of 2m, otherwise, the reflecting surface antenna is larger), and the details are also omitted, see item 3 above. Further, 1000 stainless steel pipes 5 meters long and having a diameter of 5cm were purchased, and the side surfaces of some of the pipes were cut into an area of an arc-like elliptical surface having an elliptical shape. The side cutting sections of some selected steel pipes are elliptical double-arc-shaped elliptical surfaces, the long diameter is 20cm, the short diameter is 2.5cm, the long diameters are parallel to the central axis of the steel pipe, and the total number of the long diameters is 50; then, on the end mouth of another steel pipe, the double-arc elliptical surface whose section is elliptical, long diameter is 20cm, short diameter is 2.5cm, the arc elliptical surface whose long diameter end is fixed on the edge of the steel pipe is 50, and the double-arc elliptical surface of side surface of the steel pipe and the double-arc elliptical surface on the end mouth of the steel pipe are exactly sealed, after welding, two steel pipes form about 450 angle, and branch like "Bu", and these steel pipes forming "Bu" branch like "are also branch pipes of electromagnetic wave fiber pipe. Or cutting the tips of some stainless steel pipes at an angle of 450 degrees into elliptical sections, welding every two stainless steel pipes with the cutting sections at an angle of 450 degrees into elliptical sections to form herringbone branch pipes, cutting circular sections at the pointed ends of the herringbone shapes, wherein the circular sections have the diameter of 5cm and can be just welded with the other stainless steel pipe to form the herringbone uniform three-branch stainless steel pipes which are commonly called as trisection pipes. Finally, the branched stainless steel pipes and the branched stainless steel pipes are arbitrarily connected to other stainless steel pipes, the branched stainless steel pipes are branched electromagnetic wave fiber pipes of the electromagnetic wave fiber pipes, the method of the previous section allows the information-carrying electromagnetic waves to be introduced into the branched electromagnetic wave fiber pipes, holes are punched on the upper electromagnetic wave fiber pipes or both ends of the upper electromagnetic wave fiber pipes receive and transmit the information-carrying electromagnetic waves, and the electromagnetic waves are only directional, for example, the branched electromagnetic wave stainless steel pipes of the stainless steel pipes and the stainless steel pipes of the human stainless steel pipes can only transmit the electromagnetic waves from the upper end to the lower end of the Chinese character, otherwise, the branched electromagnetic waves cannot be realized, only the electromagnetic waves cannot be rotated to a bend with a large curve angle of 900, the similar branched electromagnetic wave stainless steel pipe metal branch pipes are collectively called branched electromagnetic wave fiber pipes, also temporarily called electromagnetic wave fiber pipe branch joints, and in practice, the branched electromagnetic wave fiber pipes of the five-eight doors can be made into independent or threaded, for example, the following electromagnetic wave fiber tube branch connection application consisting of various male and female metal wires is convenient to be spirally connected with other electromagnetic wave fiber tubes with corresponding screw threads (note: the electromagnetic wave fiber tubes without screw threads in the upper and lower specifications are mainly inconvenient to describe, the electromagnetic wave fiber tubes can be spirally connected, the upper and lower specifications also comprise a spiral connection mode), and the branch electromagnetic wave fiber tubes and the like are conveniently installed by welding or spirally connecting the branch electromagnetic wave fiber tubes and the like when needed, which is the branch technology of the electromagnetic wave fiber tubes. In short, the electromagnetic wave of the satellite signal of the direct broadcast satellite 9 can be transmitted to a remote place by the electromagnetic wave fiber tube in a bendable manner, and the frequency of the variable electromagnetic wave is not transmitted in the present day (for example, the frequency of the variable electromagnetic wave is not needed to be transmitted by the outdoor tuner and the indoor tuner of the satellite), so that the higher the frequency of the electromagnetic wave is, the better the use is, and the smaller the inner diameter of the electromagnetic wave fiber tube is. (I reckon in the experiment with the fact that information-carrying electromagnetic waves flow in 10 total pipelines of the 5000-meter steel pipe, namely if 10 ten thousand meters of 5 cm-diameter inner pipelines with bent and straight steel pipes (or 1.7 cm-diameter copper pipes) are electromagnetic fiber pipes, 12GHz electromagnetic wave information of a direct broadcast satellite is completely transmitted at one time, and 10 ten thousand antennas receive the information, only 20 large antennas with the diameter of 5 meters receive the signals of No. 9 direct broadcast satellite signals of the present in parallel).
The flexible electromagnetic wave fiber tube is implemented in the following way, for example, or the structure of the electromagnetic wave fiber tube is that more than two male and female metal wires are mutually connected and combined in pairs to form the electromagnetic wave fiber tube with empty space; or more than two male and female metal wires are mutually connected and combined in pairs to form a space, and then a nonmetal material which is easy to transmit electromagnetic waves is filled in the space to form a metal channel (mainly, the metal channel is filled by pressing and deforming a strut electromagnetic wave fiber tube or reducing electromagnetic wave signals or selecting channels and the like), so that the electromagnetic waves carrying information can flow through the channel. Mainly for solving the problem of convenient installation, the invention adopts the following mode to manufacture the flexible electromagnetic wave fiber tube, for example, a male and female metal wire method replaces a metal tube, such as fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 14 and the like.
The specific implementation method comprises the following steps: 1. the metal with a groove is collectively called as a bus, such as a bus copper wire, also called as a bus, also called as a mother metal wire; a metal wire with a bump is generally called a public wire, such as a public copper wire, also called a public metal wire; the metal wire with a groove and a protrusion is called a male bus, a male copper wire, a male bus, a male metal wire, a female metal wire, and the like, and all the contents below or above are not described in the same way. The specific embodiment is described below by taking a production line for producing male and female copper wires as an example, and the method is that the copper material is heated to a certain temperature to melt the copper material into a liquid state, and then the liquid copper is extruded to flow into the inlet port of the male and female copper wire die hole ring as shown in fig. 6 and 9, and the other end of the male and female copper wire die hole ring flows out of the solid male and female copper wires. (the female and male copper wire mold cavity ring is a mold for producing female and male copper wires), the female and male copper wires are realized mainly by taking the practical specific embodiment as shown in fig. 9, and the detailed method is as follows: a production line special for producing male and female copper wires is characterized in that a copper material is heated to a certain temperature to melt the copper material into a liquid state, liquid copper is extruded to flow into an inlet of a male and female copper wire die hole ring (as shown in figure 9), the other end of the male and female copper wire die hole ring is slowly cooled, the liquid male and female copper wires are changed into solid male and female copper wires, and therefore male and female copper wires are produced, (actually, the same as a copper wire or a copper pipe is produced, only a formed die is different, and here, the die for producing the male and female copper wires) and male and female copper wire die hole ring sizes are related to male and female copper wire requirements according to needs. I choose here mould of production public female copper line with cross section "8" public female copper line mould production public female copper line as figure 9, mass production (for the convenience of narration, the same below with "8" the font is), the upper cylinder line of "8" the font, the cross section is circular, the following is the open groove line, the groove line cross section is also circular, just there is the breach, it is rather that cylinder line and groove line meet along the line, the outer side shape "8" the cross section, just the groove line of "8" the font below is the open mouth, the open position of groove line is relevant with the copper pipe that the public female copper line of digit "8" is constituteed, I adopt the circular arc under the "8" the lower side to open and form whole line as groove line mouth (certainly choose the right side also the same), namely groove line mouth is not copper seal, its cross section is rather than the annular copper annular ring shape with breach annular (also is fairly opened a straight line, then the straight line is allowed to have a certain distance, the copper wire of the groove line is also called as a female copper wire, and the female copper wire is connected with the cylindrical copper wire to form a male copper wire and a female copper wire with 8-shaped sections). The size of the line port of the groove is related to the thickness of the joint of the cylindrical line and the groove. The data that the inner diameter of the section of the groove is slightly larger than the outer diameter of the section of the point cylinder line is generally required to be equal to about 0.01cm, such as a '8' shape, and the width of the joint of the groove line and the cylinder line and the groove can be selected to be related. My specific values are taken as follows: the diameter of the section of the cylindrical line on the upper surface of the 8-shaped part is 0.25cm, the inner diameter of the section of the groove on the lower surface of the 8-shaped part is 0.3cm, the distance of the line opening of the groove is 0.05cm, the thickness of the annular copper of the groove line is 0.1cm, the thickness of the joint of the cylindrical line and the groove is 0.04cm, the width of the joint of the cylindrical line and the groove is 0.12cm, and the distance of the line opening of the groove on the left side is 0.05cm (the same is true of course). The parameters are the size of the male and female copper wires, and the mold requirement is the mold for producing the male and female copper wires. Then 30 mature male and female copper wires of 1000m are produced according to the die for producing the male and female copper wires, and the produced (or processed) male and female metal wires are called as male and female copper wires. Then, the two processed male and female metal wires are connected with each other two by two along the male and female metal wires to form the spatial electromagnetic wave fiber tube, for example, in the method, a male and female copper wire and another male and female copper wire are horizontally arranged on a plane, and one side of the male (cylindrical line) of one male and female copper wire and one side of the female (groove line) of the other male and female copper wire are flatly placed in a straight line shape. Then, the starting end of the male (cylindrical line) of one of the male and female copper wires and the starting end of the female (groove line) of the other male and female copper wire are inserted into the female (groove line) (which is the same as a male and female wood board installed by woodworkers in folk), a splint is used for slightly fixing the male (cylindrical line) and the female (groove line) so as not to be too tight and not to be too loose, the male and female copper wires are pulled along two pairs of male and female copper wires, and the two male and female copper wires form a large male and female copper wire, the principle of the method is analogized, other 28 pieces of copper wires are processed one by one, so that a copper pipe which can move under the requirement of a certain bending degree is formed, namely the electromagnetic wave fiber pipes of the male and female copper wires, namely the electromagnetic wave fiber pipes of the male and female metals, and the electromagnetic wave fiber pipes of the similar metals, can be freely bent to a certain degree, the electromagnetic wave fiber tube is good in flexibility, the electromagnetic wave fiber tube is called as a flexible electromagnetic wave fiber tube (the upper part and the lower part are the same and are not repeated), for example, the electromagnetic wave fiber tube can be bent in a twisting mode, the size of an inner channel is not changed greatly, transmission of electromagnetic waves in the electromagnetic wave fiber tube is not influenced, the electromagnetic wave fiber tube is made of metal copper, male wires and female wires are mutually connected and combined in pairs to form a space pipeline, the electromagnetic wave fiber tube is also called as an electromagnetic wave fiber tube, the electromagnetic wave fiber tube processed or produced is called as a male wire and female wire electromagnetic wave fiber tube, the electromagnetic wave fiber tube is called an electromagnetic wave fiber tube for short, only copper in metal is taken as a representative and is taken as a specific implementation scheme, other metals are similar, the upper part and the lower part are not repeated. Of course, it is preferable to minimize the gap caused by the contact between the female (groove line) and the male (cylinder line) inside the electromagnetic wave fiber tube (this is a requirement for the technical accuracy of the product). If the male and female copper wires made of other smaller parameters are adopted, the method is more flexible. The method is more convenient to install than the direct copper pipe. The existing copper pipe can be bent only by heating and processing certain flexibility by a welding gun, and is slightly not free in installation. The flexible electromagnetic wave fiber tube takes the electromagnetic wave fiber tube of a male wire and a female wire as an example of the principle: briefly, when the male and female metal wire electromagnetic fiber tubes are bent, a series of bending radians from the inner bending surface to the outer bending surface are different, the radii are different, and the like, the male and female metal wires in each of the male and female metal wire electromagnetic fiber tubes are staggered in the female (groove line) groove and the male (cylindrical line), the radian of the achieved curvature is relatively larger, for example, the twisting type bending hardly affects the diameter of the internal channel of the male and female metal wire electromagnetic fiber tubes, and only becomes a point smaller than the original diameter, so that the male and female metal wire electromagnetic fiber tubes are far larger than the radian of the curvature achieved by the non-male and female metal wire electromagnetic fiber tubes, and are convenient and free, the radian of the achieved curvature of the male and female metal wire electromagnetic fiber tubes is related to the parameters of the male and female metal wires and related to materials, which is a problem related to technology and technology, and generally has the largest bending radian as possible, the reflection loss of electromagnetic waves in the electromagnetic wave fiber tube is not influenced, the receiving and the sending are influenced, and the like, and the method is the same as the optical fiber laying. Of course, the die for producing the male copper wire is a die for producing the male copper wire with an 8-shaped section, all the male copper wires are also called as the male wire, and the male copper wires are substantially fixedly connected by the male (cylindrical wires) and the male (cylindrical wires) along the line, as shown in 9 of fig. 7; or the mold for producing the female copper wire is to produce all the female copper wires, also called as the bus, by using the female copper wire mold with the cross section in a shape like a Chinese character '8', as shown in 10 of fig. 8, the produced female copper wire is equivalent to a female copper wire with a cross section in a shape like a Chinese character 'x' (equivalent to two metal groove wires with arc cross sections, which are fixedly connected along back-to-back lines), the arc shape on the upper side and the lower side is larger, and the specific implementation method is the same as the specific implementation method of the female copper wire (groove wire), and the description is not repeated one by one. Finally, the production line for specially producing the male and female copper wires in the section mentioned above comprises the following steps: "the same embodiment, which is not repeated herein, is only different from the mold shown in fig. 7 and the mold shown in fig. 8, and is produced into the electromagnetic wave fiber tube composed of the male wire and the bus wire, as shown in the cross-sectional view of fig. 14, and then the spring ring is fixed to the outside of the electromagnetic wave fiber tube at intervals of 1 meter, as shown in 22 of fig. 14, or the fixing pipe is wrapped with plastic, etc. to the outside of the electromagnetic wave fiber tube, which is called as the electromagnetic wave fiber tube with the male wire and the female wire forming the male wire and the female wire, also called as the female electromagnetic wave fiber tube, and also called as the magnetic fiber. The electromagnetic wave fiber tube, which is wrapped and fixed on the pipeline by plastic and the like, is used as an insulating material, not only can be used as an electromagnetic wave fiber tube for transmitting information-carrying electromagnetic waves, but also can be used as a power line for residential electricity (fig. 14 is the electromagnetic wave fiber tube consisting of a male wire and a bus, 22 in fig. 14 is a spring ring fixed on the outer surface of the electromagnetic wave fiber tube, 23 in fig. 14 is the male wire consisting of two cylindrical metal wires fixedly connected along the wire, which is equivalent to the male wire in fig. 7, and 24 in fig. 14 is the metal bus made of two grooves, which is equivalent to the bus in fig. 8). The other parts are the same as the male and female metal wires which are composed of the male and female metal wires and the electromagnetic wave fiber tube. The description is not repeated here, and the electromagnetic fiber tubes can be produced in large quantities. (of course, various parameters and various metals can be selected correspondingly according to the requirements to make male and female metal wires, the parameters are only used for reference, other parameters of male and female copper wires can be completely adopted, for example, a wire with a circular arc groove with a certain depth is pressed on a copper wire strip of a cylindrical copper wire as in 8 of fig. 6, the male and female copper wires are also male and female copper wires, after the electromagnetic wave fiber tube is formed, the outer surface of the electromagnetic wave fiber tube is sleeved with a metal ring, the inner part of some electromagnetic wave fiber tubes is also propped by the metal ring, in order to reduce the influence of the inner metal ring on the electromagnetic waves, the inner metal ring is arranged in the groove in the electromagnetic wave fiber tube formed by the male and female copper wires, or the inner part of the male and female copper wires is arranged in the middle of the existing soft plastic tube, the plastic tube is equivalent to a movable male and female copper wire, the spring ring is strung on the soft metal tube formed by the movable male and female copper wires, and the metal tube is also an electromagnetic wave fiber tube, only a flexible electromagnetic wave fiber tube, and the method is the same in context and is not repeated). The electromagnetic wave fiber tube of public female copper line here, public female metal line electromagnetic wave fiber tube promptly, in order to let the electromagnetic wave fiber tube of public female copper line guarantee transportation and installation, often in the electromagnetic wave fiber tube's of this public female copper line outside, equal distance is like, the fixed electromagnetic wave fiber tube passageway of hoop is sheathe in to the electromagnetic wave fiber tube's of the public female copper line of several meters length outside (I choose to sheathe in the hoop every 10 meters long outside), guarantees that the electromagnetic wave fiber tube of public female copper line does not warp and public female copper line drops. If the electromagnetic wave fiber tubes of the male and female aluminum wires are used, the outer surfaces of the electromagnetic wave fiber tubes of the male and female aluminum wires are at equal length distances, for example, an iron ring is added to the electromagnetic wave fiber tubes of the male and female copper wires with the length of several meters (i choose to sleeve the iron ring on the outer surface of each 10 meters), so that the electromagnetic wave fiber tubes of the male and female aluminum wires are prevented from deforming and the male and female aluminum wires are prevented from falling off. If the metal is harder and the male and female can be buckled with each other, no iron ring is required. In addition, the electromagnetic wave fiber tube of the once-formed male and female metal wires is as follows: taking the electromagnetic wave fiber tubes of the male and female copper wires as an example, if the capital is large, for example, 30 molds for producing the male and female copper wires are provided, and 30 production lines are provided for simultaneous production, 30 semi-mature male and female copper wires are produced (namely, the semi-mature male and female copper wires are the inlet ports of the hole rings of the male and female copper wire molds, liquid copper is extruded to flow into the inlet ports of the hole rings of the male and female copper wire molds, the other ends of the hole rings of the male and female copper wire molds are cooled to a certain temperature, and in the process of changing the liquid male and female copper wires into solid copper wires, when the solid copper wires in a solid soft state are formed (under a semi-cold condition), the male (cylindrical) line of one male and female copper wire is forcedly inserted into the female (groove line) of the other male and female copper wires one by one to one (half-arc), namely, at the inlet of the mold for producing the male and female copper wires, one side of the mold for the male and female copper wires is the female wire (the female wire) with the section showing the half-arc), then, in operation, the section of the female (groove line) opening of the male and female copper wires is forced to be a semicircular arc for pressing and sealing for a certain distance, the original semicircular copper groove is changed into a male (cylindrical line) wrapping the male and female copper wires, the distance of the groove line opening is ensured to be 0.05cm, meanwhile, the movable gap at the joint of the groove line opening and the cylindrical line and the groove is 0.01cm, then cooling is carried out, and finally, the electromagnetic fiber tubes of the male and female copper wires which are mutually connected and combined to form a space are conveyed out, so that a movable copper tube is produced at one time, the movable copper tube which can be twisted and is 1000m long is produced at one time, the electromagnetic fiber tubes can be freely bent to a certain degree, namely the electromagnetic fiber tubes forming metal, which are collectively called as the electromagnetic fiber tubes of the male and female metal wires and are also called as the electromagnetic fiber tubes for short, and the electromagnetic fiber tubes forming the male and female metal wires and the electromagnetic fiber tubes are similar to the electromagnetic fiber tubes forming metal wires and the electromagnetic fiber tubes, the copper wire processed in the way is called a male copper wire and a female copper wire, and other metal wires with the male and the female copper wires produced in the way are collectively called the male metal wire and the female metal wire. The electromagnetic wave fiber tube of the male and female copper (or aluminum) wire or the electromagnetic wave fiber tube of the male and female metal wire which are produced at one time can be used as a power line, so that the environment is protected, the emission is reduced, and the resources are saved. The method for installing the electromagnetic wave carrying information, such as the electromagnetic wave carrying information, which can be transmitted or received or branched, is the same as the method for making the electromagnetic wave carrying fiber tube by the steel tube, such as a series of methods for installing an antenna and a branched electromagnetic wave carrying fiber tube by punching, and the like, and is not repeated here, please refer to the method for taking the electromagnetic wave carrying information by the steel tube (the same upper and lower parts are not repeated) and refer to the method for processing the steel tube to make the electromagnetic wave carrying information by the electromagnetic wave carrying fiber tube for transmitting the electromagnetic wave carrying information.
The following are supplemented: when the channel of the electromagnetic wave fiber tube is filled with a material which is not metallic and is easy to transmit the electromagnetic wave, for example, plastic, physical foam and the like are filled in the electromagnetic wave fiber tube, experiments and practices prove that the loss of the electromagnetic wave information is large, especially the higher the attenuation of the electromagnetic wave is larger, such as the electromagnetic wave above 1000GHz, the best metal is used for the transmission of the electromagnetic wave information, in practice, the electromagnetic wave within 1000MHz is large in the loss of the electromagnetic wave information transmitted by the coaxial cable, and the coaxial cable is too long and cannot or cannot be used for transmitting the electromagnetic wave information continuously by the coaxial cable. The coaxial cable has the root cause that the materials such as plastic and physical foam in the coaxial cable isolate the positive electrode and the negative electrode, and high-frequency electromagnetic waves have larger loss in the coaxial cable, and simultaneously, the vacuum in the channel of the electromagnetic wave fiber tube is best, and in the actual operation, air can freely pass through the electromagnetic wave fiber tube (namely, the free air filling is the best method, because air leakage and the like can not be influenced in the electromagnetic wave fiber tube, if the plastic or physical foam is used for sealing the pipeline at the proper position in the electromagnetic wave fiber, the influence of blocking the barrier materials such as ash and the like in the electromagnetic wave fiber is the transmission of the magnetic waves, and the technical and management convenience and trouble saving are more) or other gases are related to the material properties in the pipeline filled with the gases. Secondly, the smoother and straighter the inner channel of the electromagnetic wave fiber tube, the larger the diameter, the better the channel, and even the frequency and the magnitude of the electromagnetic wave, for example, the larger the frequency of the electromagnetic wave, the smaller the trend of the electromagnetic wave fiber tube, the smaller the equal bending degree of the pipeline at the bending part of the electromagnetic wave in the electromagnetic wave fiber tube, otherwise, the electromagnetic wave can not enter the pipeline of the small magnetic fiber, and the transmission of the electromagnetic wave in the fiber tube is not mentioned. Meanwhile, the higher the frequency of the electromagnetic wave is, such as more than 100GHz or 1000GHz, the electromagnetic wave can be transmitted in an electromagnetic wave fiber tube of a very fine pipeline, and the electromagnetic wave fiber tube is made in the same size as the existing optical fiber, at the moment, the magnetic fiber shows the use value, such as a plastic material thin wire which is easy to transmit the electromagnetic wave is used, then a layer of metal poise or copper tube or steel wire tube is plated on the cylindrical surface of the wire, and the like, a copper tube which is manufactured into a copper tube with the inner diameter of 0-0.5 cm like the existing copper tube is the electromagnetic wave fiber tube, i.e. a specific mould with the inner diameter of 0.4cm of the metal pipeline is selected to manufacture the uniform and fine copper tube with the length of 10000m and the inner diameter of 0.4cm, so the copper tube is simple, the fine copper tube uses the electromagnetic wave of 100GHz to transmit information, the effect is very good, and the magnetic fiber is completely as small as the existing optical fiber, however, in practice, such a small magnetic fiber is not needed, when the magnetic fiber transmits a large amount of electromagnetic waves, and a large amount of the magnetic fiber is used for dual functions of residential power, industrial power and the like, it is known that the magnetic fiber is not needed to be as small as the existing optical fiber, and the larger the pipeline of the electromagnetic fiber pipe is, the more the electromagnetic wave transmission at a low point is adapted, and the more the transmission of the high-frequency electromagnetic waves is naturally enabled to be more smooth, so that the technical precision is wasted. Thirdly, the number of the channels for transmitting the information carried by the electromagnetic wave fiber tube is very remarkable, and the transmission of the information carried by the electromagnetic wave fiber tube has humanization and individuation effects of compulsory property, limitation, selectivity, freedom and the like, and is far better than that of the information carried by the optical fiber. In general, a channel of an electromagnetic wave fiber tube is filled with a non-metallic material that is easy to transmit an electromagnetic wave, and is used for an electromagnetic wave attenuation operation, a prevention of a pipe pressure deviation of the electromagnetic wave fiber tube, a selection of an electromagnetic wave channel, or other operations. Meanwhile, the original coaxial cable can only be used in a low electromagnetic wave range, for example, a material such as filling plastic is used for selecting electromagnetic wave attenuation and selecting a channel number. The contents, functions, structures and methods are that metal is used to make an inward surface to form a metal-enclosed long space pipe similar to a pipe, electromagnetic waves pass through the channel, and electromagnetic waves carrying information flow through the channel, the space is not metal, for example, the metal-enclosed long space pipe is substantially filled with plastic, and is smooth and unobstructed relative to the electromagnetic waves, and only the loss of the electromagnetic waves is small and can be saved about. Of course, it is preferable that the metal enclosed long space pipe is substantially filled with vacuum and is preferably used for transmitting electromagnetic waves, and it is common that the pipe of the electromagnetic wave fiber pipe is freely filled with natural air and is therefore in the interior of the 1 st. It is emphasized that "a metal-faced pipe in which the inner surface layer made of metal comprises a metal pipe or a metal-enclosed pipe or other pipe and the inner surface layer of the metal-faced pipe is formed by a thin metal layer" is added. Also as "metal tubing": pipes that are widely understood, such as steel pipes; "metal-enclosed conduit": the middle part enclosed by a plurality of male and female wires is provided with an empty long pipe, such as a copper pipe enclosed by the male and female wires; the electromagnetic wave fiber tube filled with the non-metallic material that easily transmits electromagnetic waves in the steel tube, as described above, "when the non-metallic material that easily transmits electromagnetic waves is filled in the passage of the electromagnetic waves of the electromagnetic wave fiber tube, for example, plastic, physical foam, etc. is filled in the electromagnetic wave fiber tube"; "other pipes have a metal surface pipe formed by a thin metal layer on the inner surface layer", and the like. The meaning and application of the electromagnetic wave fiber tube are really understood by professional technicians or non-professional technicians, when the original electromagnetic wave running straight line, especially the electromagnetic wave with higher frequency is used as an information carrier for transmitting information, the electromagnetic wave is required to run by using the electromagnetic wave fiber tube produced by the people, for example, the electromagnetic wave transmission route is changed into humanized running (transmission) by changing the electromagnetic wave running straight line, the electromagnetic wave running curved line, the electromagnetic wave running branched line and the like, and the light running straight line is changed into humanized running like the existing optical fiber. These are not intended to be exhaustive, but only the electromagnetic wave fiber optic structure and uses of the invention herein.
The electromagnetic wave fiber tube has the structure that in addition to the above functions, when the information-carrying electromagnetic wave flows through the electromagnetic wave fiber tube for transmission, the electromagnetic wave fiber tube also has the function of conveying a power line, only the metal part of the electromagnetic wave fiber tube is directly connected with a power line conveying device, the hole on the electromagnetic wave fiber tube is separated by an insulating material and passes through an antenna in the electromagnetic wave fiber tube or the two ends of the electromagnetic wave fiber tube are separated by the insulating material, the power device is separated by the insulating material and cannot be directly connected, a large amount of power special line materials, accessory materials and manpower are saved, the environment is purified, the environment is beautified, and the energy is saved. The specific implementation scheme is as follows: in the above-mentioned details, for example, "one movable copper tube is produced at one time", i.e. the movable copper tube with a length of 1000m that can be twisted is an electromagnetic wave fiber tube that can be freely bent to a certain extent, which is a constituent metal electromagnetic wave fiber tube, and is generally referred to as a common bus metal wire electromagnetic fiber tube, also referred to as an electromagnetic wave fiber tube for short, which is a constituent common bus metal wire electromagnetic fiber tube, also referred to as a flexible electromagnetic wave fiber tube. The movable copper pipe with the length of 1000m is connected with 220V alternating current for residents, and the copper pipe is used as a power line, so that the movable copper pipe is used as the power line for residents, and is also called an electromagnetic wave fiber pipe of electric power, namely an electromagnetic wave fiber pipe, and is also used as the power line. Only particular attention is paid to: 1. the antenna used as all holes or any position of two ends of the electromagnetic wave fiber tube of the power line takes electromagnetic wave signals and external electronic products in the antenna and uses insulating materials to completely separate the electromagnetic wave fiber tube; 2. the movable copper pipe is used as an electromagnetic wave fiber pipe of power of a power line, and when a connector is connected, the problem of deformation of the electromagnetic wave fiber pipe due to the size of the pipeline is solved, and the problems of transmission of electromagnetic wave signals and power supply of electronic products are not influenced. The other places are the same as the current specific embodiment of the electric power, and are the same as the movable copper pipe with the length of 1000m, so that the description is not needed; if the 1000m long movable copper pipe is connected and is connected with high-voltage alternating current or direct current, the copper pipe is used as a power line, the existing copper pipe is the same as the power line, only the electromagnetic wave fiber pipe needs to be in butt joint with a ceramic pipe with a certain length, the ceramic pipe is used as an insulating material to separate the next section of the copper pipe from the electromagnetic wave fiber pipe with different power, or an antenna or an electronic product, only the electromagnetic wave carrying information is transmitted through the ceramic pipe, the antenna is installed to transmit or receive the electromagnetic wave carrying the information, the movable copper pipe is used as a power line for residents, the size of the ceramic pipe is adapted to a joint port, the length of the ceramic pipe is related to the voltage, and only a certain large amount of electromagnetic wave loss is caused (see in detail in the practice committee of concrete reflecting surface receiving medium star nine-sized broadcast television network engineering, on the 18 th day 10.5.4.s.18 th day of 2013. the technical committee of satellite television and broadband multimedia, and the journal of the Guizhou province television and film office, scientific in 2014 A second-tier prize). I only implement the electromagnetic wave fiber tube and the application of the metal pipeline, but not implement others.
In addition, the average diameter of the inner diameter of the pipeline of the electromagnetic wave fiber tube at the bend can be larger than or smaller than 10cm, the cross section of any cross section formed by the metal surface layer in the metal surface layer can be in any shape, only when the electromagnetic wave carrier information is required to transmit information in the tube, the smaller the influence of the metal surface structure of the channel in the tube on the transmission of the electromagnetic wave carrier information is, the better the transmission of the electromagnetic wave carrier information is, especially the technical parameters of the channel surface of the metal surface layer in the electromagnetic wave fiber tube inward should be paid attention to when the electromagnetic wave carrier with high frequency is used for transmitting information in the channel: the smoothness, the bending angle and the channel size ensure that the influence of the channel structure on electromagnetic wave transmission is as small as possible. Meanwhile, the higher the electromagnetic wave frequency is, the smaller the inner diameter of the electromagnetic fiber tube is, the higher the gold content of the process technology of the electromagnetic fiber tube is (the higher the accuracy is), and the law of transmission of the quality guarantee can be guaranteed, so that the electromagnetic fiber tube with unlimited size such as 1 and the electromagnetic fiber tube with limited size such as 6 are provided, and a specific determined value is taken within 7cm of the average diameter value of the inner diameter of the metal tube to be made into the electromagnetic fiber tube; and 8, in operation, the inner diameter of the used metal pipeline is within 1.75cm, and a specific determined value is taken to be made into the electromagnetic fiber pipe.
The method is characterized in that a copper solid wire with the diameter of 0.5cm and the length of 1000m is adopted (of course, other metals are the same, hollow copper can also be used, only the copper solid wire is adopted, the processing is easy, the diameter of the actually processed solid wire copper or hollow copper pipe or other metals is completely optional, and the diameter and the length are selected according to needs), and 30 wires are the same in size and length. Then, the side surface of the cylinder on each copper wire is divided into two surfaces, one is one third and one is two thirds, two lines are drawn along the copper wires, then two lines on each of the 30 copper wires are carefully processed into small male and female metal wires which are as shown in figure 6 along the copper wires by a lathe, so that the processed copper wires are called male and female copper wires, and the other metal wires which are produced in such a way and have male and female are collectively called the male and female metal wires. And the most concave low point of the female side line and the thickest sharp point of the male side are punched into a small oval hole at every 2m, the major axis of the oval hole is 0.15cm long and the diameter is 0.05cm along the line axis, then 30 oval holes are arranged side by side and are respectively penetrated into the small oval hole by a spring ring with the diameter of 0.04-0.049 cm, and the spring rings support 30 male and female metal pipelines formed by springs, so that the electromagnetic wave fiber tube with the length of 1000m is provided, and the electromagnetic wave fiber tube with the cross section formed by the electromagnetic wave fiber tube shown in the figure 10 is convenient to bend and has a certain flexible space. Then, please refer to the electromagnetic wave method (same up and down, not repeated) for transmitting, receiving, continuing, installing the antenna or branching information carrying steel pipe. See the above-mentioned not steel tube processing to transmit or send or receive the electromagnetic wave and carry the information function as the fiber tube of electromagnetic wave. Of course, there are also other methods, i have already exemplified several advantages, similar to understanding the electromagnetic wave fiber tube and its usage, and do not describe the specific embodiments.
And "9" embodiment: in the technology of the existing satellite, a reflecting surface with a metal spherical surface or a convex surface is emitted on the satellite, the midpoint of the convex surface of the reflecting surface and the center of the spherical surface are opposite to the center of the Chinese ground, or the reflecting surface with the convex surface of the metal spherical surface is emitted on the satellite, or other convex surfaces are made of metal on the satellite, a series of electromagnetic waves with rich high-frequency channels and strong information are collected on the ground by a plurality of electromagnetic fiber tubes with certain length and are directly emitted to the reflecting surface through the space, the reflecting surface is directly reflected to the larger ground in a reflection mode and a slight scattering mode, more users on the ground receive the electromagnetic waves, and the information content of the users is met. The convex surface made of the metal layer comprises the surface of a metal reflecting surface with a spherical surface with certain sphericity and the convex metal reflecting surface, and the convex metal reflecting surface is fixed on a satellite to reflect electromagnetic waves, so that a beam of electromagnetic waves can be emitted to the satellite reflecting surface from the ground and reflected to more grounds in a direct broadcasting way.
To illustrate the implementation of the reflective surface satellite, in the current technology of the satellite, a spherical surface made of metal is launched, for example, a support made of light material and a metal skin (such as titanium skin, gold skin, etc.) with a thickness of 1mm is made into a support with a spherical radius of 40.0m, and the satellite is shown as 13 in fig. 11, (of course, the reflective surface with a spherical radius of 100 degrees and a spherical arc with a radius of 40.0m is made of light material, the reflective surface is placed on the satellite, and the metal skin (such as titanium skin, gold skin, etc.) with a thickness of 1mm is fixed on the reflective surface support with a spherical radius of 100 degrees and a radius of 40.0m, so as to form the reflective surface fixed on the geostationary satellite, and finally, the reflective surface satellite is made into a reflective surface satellite, which is called reflective surface geostationary satellite for short, and the reflective surface geostationary satellite is launched in the air, and the center of the convex surface of the reflective surface of the geostationary satellite faces the center of our country's earth The difficulty is: how to make the convex surface center of the reflecting surface face the center of the ground in China and the like on the satellite like the reflecting surface satellite shown in figure 11) and transmit the satellite into the space about 3.8 kilometres in the sky to be used as a synchronous satellite, then, the specific geographical position is selected, and the modulated electromagnetic wave beams (16 shown in figure 12) of a series of high-frequency rich channels which are intensively received and carry information are directly transmitted to the spherical surface on the reflecting surface satellite by a 100m cylindrical electromagnetic wave fiber tube pipeline (15 shown in figure 12) with the inner diameter of 30cm on the ground, namely, the cylindrical center axis of the electromagnetic wave fiber tube is directly aligned to the spherical surface on the reflecting surface satellite. The electromagnetic wave of the frequency band descending by the No. 9 direct satellite of today is emitted from one end of the ground of the electromagnetic wave fiber tube to one end of the satellite aligned with the reflecting surface, so that the spherical surface directly reflects the electromagnetic wave to the ground, more users on the ground receive the electromagnetic wave for utilization, and the information content of the users is met. (the electromagnetic wave can be received in a concentrated way by the electromagnetic wave fiber tube to reach about 45 million dB). From experimental data, the spherical radius is 40.0m, and the spherical degree is 100 degrees and the spherical radius is 40.0m, which may be larger or smaller, of course, larger, and larger diameter of the electromagnetic fiber tube. This reflects light much like a spherical mirror. Only the reflecting surface satellite is calculated according to the experimental data of the user. Therefore, the problems of limited power consumption, limited electromagnetic wave power, limited equipment space, extremely short service life of electronic products and the like on the satellite are solved, and a series of electromagnetic waves with high frequency, large bandwidth and rich channel number, which can not transmit or retransmit strong information, can be transmitted or retransmitted. Meanwhile, the reflecting surface satellite can use the high-frequency electromagnetic wave frequency below 10GHz (including 10 GHz) or above 10GHz as an information carrier in an electromagnetic wave fiber tube, the reflection surface of the satellite which is emitted to the reflection surface from the ground is directly expanded and reflected to the ground for the user to use, the ground satellite receives the reception or the route of the electromagnetic wave fiber tube is retransmitted in various modes by the user on the ground, the retransmitted high-frequency electromagnetic wave which can be directly and flexibly transmitted by the electromagnetic wave fiber tube is used, the frequency bandwidth is very large and the number of channels is rich when the high-frequency electromagnetic wave frequency below 10GHz (including 10 GHz) or above 10GHz is used to meet various user requirements, particularly, the problem of user requirements of shooting to the ground in thousands of postures by using the downward downlink frequency of the satellite is solved, such as point-to-point, point-to-multipoint or multipoint-to-point solving of the information problem for users.
In a word, the electromagnetic wave fiber tube solves the problem of limitation that electromagnetic waves are transmitted to the periphery in the air by taking a linear transmission mode or an antenna as a center or transmitted by a metal wire and the like, and solves the problem that the electromagnetic waves are transmitted in the electromagnetic wave fiber tube in a reflection mode or a linear mode, the electromagnetic waves can be transmitted in a linear mode and can be transmitted in a branching mode, the electromagnetic waves carrying information can be transmitted to places where people need to use in a humanized mode, and the information carried by the electromagnetic waves can be used by users needing the information; it is only necessary to have the function of transmitting power to the electromagnetic wave fiber tube, and it should be noted that the metal part of the electromagnetic wave fiber tube is directly connected with the power transmission equipment, and the metal part of the electromagnetic wave fiber tube indirectly isolates the equipment transmitting the electromagnetic wave from the equipment receiving the electromagnetic wave through the insulating material, such isolation as 17 of fig. 13 is particularly important, and it is particularly noted that the process is very strict, or the inlet and outlet of the electromagnetic wave fiber tube are installed with receiving and transmitting antennas and electronic products, and any places such as the electronic products are not electrically conducted with the electromagnetic wave fiber tube, and are isolated by the insulating material at a certain distance, particularly high voltage, the insulating material such as ceramics for electromagnetic wave loss is sacrificed, and the electromagnetic wave fiber tube or the electronic products with the length of several meters are made to connect the two sides of the electromagnetic wave fiber tube or the electronic products, and the electromagnetic wave is continuously circulated through the insulating material tube such as ceramics to isolate the high voltage, particularly low voltages are separated by a few millimetres, as with common insulating materials such as plastics (separation by methods like 17 of figure 13 is particularly important, of particular note, and the process is quite critical). And a series of problems that a user generally uses two electromagnetic wave fiber pipes to enter and exit a house, a large amount of power is used, a large amount of information is used, the environment is clean and clean, a large and spacious and bright landscape is displayed, resources are saved and the like are solved. And is believed to work better than optical fibers. In addition, it is emphasized that the method for laying the flexible electromagnetic wave fiber tube, punching or having holes or ports or branches or continuing to transmit electromagnetic waves or installing various antennas, so that the method for users or equipment to receive or transmit or continue to transmit or install antennas or branches carrying information is the same as the method for transmitting or receiving or continuing to transmit or install antennas or branches carrying information of the above-mentioned stainless steel tube (the same up and down, not repeated). See the above mentioned non-steel tube processing as electromagnetic wave fiber tube transmission or sending or receiving electromagnetic wave information carrying function. Of course, there are also other methods, i have already exemplified several advantages, similar to understanding the electromagnetic wave fiber tube and its usage, and do not describe the specific embodiments. The above-mentioned steel tube is used as electromagnetic wave fiber tube body, and its upper portion and lower portion are mutually supplemented completely, if the copper tube is used as electromagnetic wave fiber tube, it is identical to that the steel tube (or steel tube) is not used as electromagnetic wave fiber tube, and only the bent position can be completely bent by means of heating method.

Claims (4)

1. An electromagnetic wave fiber tube is composed of a metal pipeline enclosed by a metal surface, a bell mouth enclosed by the metal surface, a plastic material, N antennas and a ceramic material, wherein N is a positive integer, the bell mouth is installed on one port of the metal pipeline, the metal surface of the metal pipeline and the metal surface of the bell mouth enclose a transmission channel, the surface of the transmission channel is a smooth surface, the transmission channel is used for transmitting electromagnetic wave signals with frequency of more than 1GHz, the inner diameter of the metal pipeline is 0-7 cm,
one end of the antenna extends into the metal pipeline, the other end of the antenna is arranged outside the metal pipeline, metal on the surface of the metal pipeline is connected with the antenna through the ceramic material, the plastic material is a substance which is easy to allow electromagnetic waves with frequency of more than 1GHz to pass through, and the plastic material blocks a port of the metal pipeline;
the method is characterized in that: more than two female metal wires, male metal wires or male and female metal wires which are connected and combined are arranged in the metal pipeline, wherein the female metal wires, the male metal wires and the male and female metal wires are respectively provided with bulges along the metal wires, grooves along the metal wires and bulges and grooves along the metal wires; the transmission channel is used for transmitting electromagnetic waves and simultaneously performing lightning protection or power transmission.
2. The electromagnetic wave fiber tube of claim 1, characterized in that: when the antenna is used, one end of the antenna is inserted into the channel of the metal pipeline for transmitting electromagnetic waves.
3. A method for laying an electromagnetic wave fiber pipe according to claim 1, wherein the electromagnetic wave fiber pipe is laid in a bent or straight or curved-straight fit.
4. A reflection surface synchronous satellite signal transmission system, which is composed of a reflection surface and a support and the electromagnetic wave fiber tube of claim 1, characterized in that: the reflecting surface is a convex surface made of metal, and the reflecting surface is fixed by a support to form a reflecting surface geostationary satellite;
the cylindrical axis of the metal pipeline is aligned to the convex surface of the reflector synchronous satellite;
when the system is in operation, the electromagnetic waves are transmitted to the reflecting surface of the reflecting surface geostationary satellite in the sky through the metal pipeline and then are directly reflected from the reflecting surface of the reflecting surface geostationary satellite to users on the ground for use;
the reflecting surface synchronous satellite signal transmission system for transmitting electromagnetic waves with frequencies above 1GHz is formed.
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