WO2014115312A1 - 電磁波の位相変換装置 - Google Patents
電磁波の位相変換装置 Download PDFInfo
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- WO2014115312A1 WO2014115312A1 PCT/JP2013/051624 JP2013051624W WO2014115312A1 WO 2014115312 A1 WO2014115312 A1 WO 2014115312A1 JP 2013051624 W JP2013051624 W JP 2013051624W WO 2014115312 A1 WO2014115312 A1 WO 2014115312A1
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- WIPO (PCT)
- Prior art keywords
- phase conversion
- conversion device
- layer
- mobile phone
- wave plate
- Prior art date
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q15/00—Devices for reflection, refraction, diffraction or polarisation of waves radiated from an antenna, e.g. quasi-optical devices
- H01Q15/24—Polarising devices; Polarisation filters
- H01Q15/242—Polarisation converters
- H01Q15/244—Polarisation converters converting a linear polarised wave into a circular polarised wave
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B5/00—Optical elements other than lenses
- G02B5/30—Polarising elements
- G02B5/3083—Birefringent or phase retarding elements
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/52—Means for reducing coupling between antennas; Means for reducing coupling between an antenna and another structure
- H01Q1/526—Electromagnetic shields
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q17/00—Devices for absorbing waves radiated from an antenna; Combinations of such devices with active antenna elements or systems
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q15/00—Devices for reflection, refraction, diffraction or polarisation of waves radiated from an antenna, e.g. quasi-optical devices
- H01Q15/0006—Devices acting selectively as reflecting surface, as diffracting or as refracting device, e.g. frequency filtering or angular spatial filtering devices
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q19/00—Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic
- H01Q19/06—Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic using refracting or diffracting devices, e.g. lens
- H01Q19/062—Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic using refracting or diffracting devices, e.g. lens for focusing
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q3/00—Arrangements for changing or varying the orientation or the shape of the directional pattern of the waves radiated from an antenna or antenna system
- H01Q3/44—Arrangements for changing or varying the orientation or the shape of the directional pattern of the waves radiated from an antenna or antenna system varying the electric or magnetic characteristics of reflecting, refracting, or diffracting devices associated with the radiating element
- H01Q3/46—Active lenses or reflecting arrays
Definitions
- the present invention relates to an apparatus for reducing the electrical and magnetic influence of the target electromagnetic wave by phase-transforming the target electromagnetic wave.
- Electromagnetic waves are still increasing due to factors such as the progress of so-called electrification, the spread of hybrid cars and personal computers, and the shift to terrestrial digital. Although it is publicly known that there is no harm to those electromagnetic waves, the information obtained through the Internet is not necessarily positive for electromagnetic waves, and there are many reports that mobile phones are harmful overseas, Many books have been published that discuss the harmful effects of electromagnetic waves. In addition, WHO has reported that it is harmful. It is often said that the shoulders are stiff and the eyes are tired when using a personal computer, but there are some who seek the cause because the muscles become stiff due to electromagnetic waves and the cerebral blood flow decreases.
- the O-ring test is related to the invention of Dr. Megumi Omura, who makes the subject put the thumb and other fingertips together to make a ring (ie, an O-ring) and places the other hand near the affected area of the subject. While trying to pull away the finger making the subject's ring with the examiner's finger, the abnormality of the affected part is searched by examining the change in the ability to close the subject's ring.
- Dr. Megumi Omura Dr. Megumi Omura
- Dr. Megumi Omura who makes the subject put the thumb and other fingertips together to make a ring (ie, an O-ring) and places the other hand near the affected area of the subject. While trying to pull away the finger making the subject's ring with the examiner's finger, the abnormality of the affected part is searched by examining the change in the ability to close the subject's ring.
- the present inventor verified the O-ring test, and obtained experience that the electromagnetic wave had an undesired influence on the human body through experience and observation as a dentist. This has led to the development of the invention.
- Prior art discovered in the course of development research includes, for example, the invention of an electromagnetic shielding antenna element disclosed in JP-A-2002-299880 and an electromagnetic shielding body using the electromagnetic shielding element, and the invention relates to the wavelength of an electromagnetic wave to be shielded.
- a minute dipole antenna element having a sufficiently short length and a minute loop antenna having a sufficiently short circumferential length are combined to generate circular or elliptically polarized waves, and these antennas are arranged in pairs to form each antenna.
- the present invention has been made paying attention to the above points, and its object is to provide an electromagnetic wave phase conversion device capable of reducing the influence of the electric field and magnetic field of the electromagnetic wave. Another object of the present invention is to provide a portable device for reducing the influence of electromagnetic waves exerted on the human body.
- the present invention is a phase conversion device that converts electromagnetic waves into right-handed circularly polarized waves and left-handed circularly polarized waves to reduce electrical and magnetic influences.
- the first layer includes a half lambda wave plate
- the second layer includes a quarter lambda wave plate
- the third layer includes a half lambda wave plate.
- the electromagnetic wave is emitted from the electric device by passing the electromagnetic wave through the half lambda wave plate of the first layer, the quarter lambda wave plate of the second layer, and the half lambda wave plate of the third layer. It is considered that electromagnetic waves can be converted into right-handed and left-handed circularly polarized waves.
- an excellent result can be obtained by an O-ring test when this is attached to an electric device or the like that generates electromagnetic waves.
- the O-ring test can be confirmed to be negative (harmful) when the O-ring is opened due to the influence of electromagnetic waves, and positive (beneficial) when the O-ring is closed.
- the effects include so-called stiff shoulders, eye strain, loss of muscle flexibility, and decreased cerebral blood flow.
- electromagnetic waves act on the O-ring test on the plus side due to circular polarization. From this, it is considered that the influence of electromagnetic waves can be reduced.
- the result may be affected by the skill of the person performing the test. Therefore, a known wave measuring device that can measure the same effect as the O-ring test is used.
- the half-lambda wave plate means a plate that gives a phase difference ⁇ (180 degrees), and it is considered that the vibration direction of electromagnetic waves that are linearly polarized waves can be converted.
- the quarter lambda wave plate is a plate that gives a phase difference of ⁇ / 2 (90 degrees), and it is considered that the vibration direction of electromagnetic waves can be converted into circularly polarized waves.
- the half lambda wave plate is one that gives a phase difference ⁇ (180 degrees), and is considered to be able to change the vibration direction of electromagnetic waves converted into circularly polarized waves.
- an apparatus comprises three layers, the half lambda wave plate in the first layer and the third layer is replaced with a transparent member, and the second layer is a quarter lambda.
- the means of providing a wave plate is taken.
- the transparent member here refers to, for example, a quartz plate, a cellophane, or an OPP tape.
- the numerical value by a wave measuring device is also favorable.
- the quartz plate can be configured to have the same effect as the half lambda wave plate depending on its thickness.
- the OPP tape is an abbreviation for (orientated polypropylene tape), and is said to be a polypropylene material that has been made into a transparent form by melt-extrusion and coated with an adhesive, and stretched. As will be described later, depending on the extending direction, the same effect as that of a half lambda wave plate or a quarter lambda wave plate can be obtained.
- the apparatus according to the present invention is provided with a means for making the first layer, the second layer, and the third layer all transparent members.
- the transparent member as used herein refers to, for example, a quartz plate, a cellophane, or an OPP tape as described above.
- the transparent member of the first layer is a half lambda wave plate
- the transparent member of the second layer is a quarter lambda wave plate
- the transparent member of the third layer is a half lambda wave plate
- the OPP tape is drawn in one direction, the OPP tape has directionality as will be described later, and depending on the direction, the same effect as the half lambda wave plate can be obtained as described above. It is considered that the same effect as that of a quarter lambda wave plate can be obtained.
- a quartz plate or polycarbonate it can be configured to have the same effect as a half lambda wave plate or to have the same effect as a quarter lambda wave plate depending on its thickness. Already known.
- phase conversion devices described above are arranged, and means for connecting the first layers of the two phase conversion devices to each other with a conductor portion are provided. Since such a measure is taken, it is considered that the influence of electromagnetic waves can be reduced in a wider range compared with the case where the phase conversion device is present alone, and the numerical value obtained by the wave measuring instrument described later is also good.
- copper can be used for a conducting wire part.
- two phase conversion devices are arranged, the first layers of the two phase conversion devices are connected to each other by a conductor portion, and a substance is arranged between the two phase conversion devices. It is a measure taken. Since such a measure is taken, it is considered that the influence of electromagnetic waves can be reduced in a wider range, and the influence of electric devices over a wide range can be reduced.
- the numerical value by a wave measuring device is also favorable.
- the substances referred to here are, for example, vitamins, minerals and supplements. These substances are said to be able to reduce the influence of electromagnetic waves by themselves, and the numerical values of the wave measuring instrument in those sandwiching them are good.
- the phase conversion device of the present invention is provided with a means for arranging a mounting portion made of a conductor on the phase conversion device.
- the mounting portion is made of copper and mainly a copper foil.
- two types of mounting units can be used, and the first mounting unit has a hexagonal outer shape, but the corners located on the diagonal from the quadrangle are deleted at the upper right and lower left corners. It has the shape.
- the second mounting portion also has a hexagonal outer shape, but has a shape obtained by deleting the upper left corner and the lower right corner among the corners that are diagonally opposite from the quadrangular shape.
- the first mounting unit and the second mounting unit By arranging the first mounting unit and the second mounting unit at the top of the phase conversion device, or both of them, a left-turn circularly polarized electromagnetic wave or a right-turn circle can be obtained even at a relatively distant point. It is considered that the electromagnetic wave can be a polarized electromagnetic wave, and the result of the wave measuring device of this apparatus is good as described later. Therefore, it is considered that the first placement unit and the second placement unit serve as antennas.
- the present invention is configured and operates as described above, by converting the phase of the target electromagnetic wave, it is possible to obtain a remarkable effect of reducing the electrical and magnetic influence exerted by the electromagnetic wave. Further, according to the present invention, the influence of electromagnetic waves exerted on the human body can be reduced. In addition, a portable electromagnetic wave conversion device that can be carried can be provided.
- FIG. 1 is a perspective view of an electromagnetic wave phase conversion device according to the present invention.
- FIG. 2A is a perspective view of another embodiment of the electromagnetic wave phase conversion device according to the present invention.
- B is a state diagram in which the sheet is pulled out from the roll.
- C is a perspective view of a transparent member.
- D is a perspective view of a transparent member.
- FIG. 3A is a perspective view of another embodiment of the phase converting apparatus for electromagnetic waves according to the present invention.
- B is a state diagram in which the sheet is pulled out from the roll.
- C is a perspective view of a transparent member.
- D is a perspective view of a transparent member.
- E is a perspective view of a transparent member.
- FIG. 1 is a perspective view of an electromagnetic wave phase conversion device according to the present invention.
- FIG. 2A is a perspective view of another embodiment of the electromagnetic wave phase conversion device according to the present invention.
- B is a state diagram in which the sheet is pulled out from the roll.
- FIG. 4 is a perspective view of another embodiment of the electromagnetic wave phase conversion device according to the present invention.
- FIG. 5 is a perspective view of an embodiment in which electromagnetic wave phase conversion devices according to the present invention are connected to each other with a conductive wire.
- FIG. 6A is a perspective view of an embodiment in which electromagnetic wave phase conversion devices according to the present invention are connected to each other with a conductive wire, and a substance is disposed between the phase conversion devices.
- B is a cross-sectional view taken along line AA in A.
- FIG. FIG. 7A is a perspective view of another embodiment of the electromagnetic wave phase conversion device according to the present invention. B is a side view of A.
- FIG. FIG. 8A is a perspective view of a phase converter of another embodiment. B is a perspective view of the back side of the phase converter of another embodiment.
- C is a sectional view taken along line AA of A.
- the phase conversion device 10 is composed of three layers, and the first layer is composed of a half lambda wave plate 20. It is known that the half lambda wave plate 20 rotates the polarization plane of electromagnetic waves by 90 degrees.
- the second layer is composed of a quarter lambda wave plate 30. It is known that the quarter lambda wave plate 30 is converted to circularly polarized light when linearly polarized light is incident.
- the third layer 40 is configured by a half lambda wave plate, and this half lambda wave plate converts the circularly polarized electromagnetic wave in the quarter lambda wave plate in reverse. be able to.
- the circularly polarized electromagnetic wave is a circularly polarized wave that is turned to the right, it is converted into a circularly polarized wave that is turned to the left. Therefore, the electromagnetic wave incident on the half lambda wave plate 20 of the first layer passes through the quarter lambda wave plate 30 of the second layer and the half lambda wave plate 40 of the third layer and is counterclockwise. It becomes a circular polarization that turns.
- the electromagnetic wave incident on the half lambda wave plate 40 of the third layer passes through the quarter lambda wave plate 30 of the second layer and the half lambda wave plate 20 of the first layer. It becomes a circularly polarized wave that turns.
- the polarization plane of the electromagnetic wave is rotated by 90 degrees
- the linear polarization is 90 degrees. It is considered that the wavefront is converted into a circularly polarized wave that is rotated.
- the electromagnetic wave circularly polarized in the quarter lambda wave plate 30 of the second layer can be converted in reverse.
- a commercially available one-half lambda wave plate and one-four lambda wave plate can be used.
- the half lambda wave plate 20 is equivalent to a stack of two quarter lambda wave plates 30.
- the first layer is replaced with the half lambda wave plate 20 in place of the half lambda wave plate 20
- the second layer is further laminated with the quarter lambda wave plate 30, and the third layer.
- two quarter lambda wave plates 30 are stacked in place of the half lambda wave plate 40. Therefore, it is considered that the same effect can be obtained by stacking a total of five quarter lambda wave plates 30 (not shown).
- phase conversion device 10 ′ is replaced with a transparent member 20 ′, 40 ′ instead of the half lambda wave plate 20 of the first layer and the half lambda wave plate 40 of the third layer in the phase conversion device 10.
- the transparent member includes, for example, a quartz plate.
- Polycarbonate, cellophane, and OPP tape can be used.
- a half lambda wave plate or a quarter lambda wave plate can be produced by changing its thickness.
- the stretched one direction is the x direction and the direction perpendicular thereto is the y direction
- the transparent members 20 'and 40' of the layer and the third layer are overlapped in the same x direction. That is, the cellophane or OPP tape is commercially available as a roll R wound around a cylinder, and the radial direction in the roll R is defined as the x direction, and the thrust direction in the roll R is defined as the y direction. In that state, the cellophane or the OPP tape is pulled out from the roll R to form a sheet.
- the sheet-like cellophane or OPP tape is used as the transparent members 20 'and 40' of the first layer and the third layer, and the x direction defined as the radial direction in the state of the roll R is matched with the first direction.
- the transparent member 20 'and 40' of the layer and the third layer are provided, and the wave plate 30 of the second layer is disposed between them (see FIG. 2).
- the phase conversion device 10 ′′ is replaced with the transparent members 20 ′, 40 ′ in place of the half lambda wave plate 20 of the first layer and the half lambda wave plate 40 of the third layer in the phase conversion device 10.
- the transparent member includes, for example, a quartz plate, and polycarbonate, cellophane, and OPP tape can be used.When using a quartz plate or polycarbonate, the thickness of the transparent member is It is well known that a half lambda wave plate or a quarter lambda wave plate can be made by changing, and when cellophane or OPP tape is used, it is stretched as described above.
- the transparent members 20 'and 40' of the first layer and the third layer are aligned in the same x direction and overlapped. That is, the cellophane or OPP tape is commercially available in the state of a roll R wound around a cylinder, the radial direction in the roll R is defined as the x direction, and the thrust direction in the roll R is defined as the y direction. In this state, the cellophane or OPP tape is drawn out from the roll R to form a sheet, and the sheet-like cellophane or OPP tape is used as the transparent members 20 'and 40' of the first layer and the third layer.
- the x-directions defined in the radial direction in the state of R are aligned to form the first layer and third layer transparent members 20 'and 40'. ′ And 40 ′ are equivalent, and it is the same regardless of which of the transparent members 20 ′ and 40 ′ is the first layer.
- a transparent member 30 ' is disposed in place of the plate 30.
- the cellophane or OPP tape is commercially available in the state of a roll R, so that the thrust direction of the roll R is set to the y direction.
- the cellophane or OPP tape is drawn out from the roll R to form a sheet, and the sheet-like cellophane or OPP tape is used as the second layer transparent member 30 ', and the thrust direction in the case of the roll And the x direction of the transparent members 20 'and 40' of the first layer and the third layer coincide with each other and are arranged between the transparent members 20 'and 40'.
- ′′ Is aligned with the direction of the transparent member 20′x of the first layer, the direction of y of the transparent member 30 ′ of the second layer, and the direction of x of the transparent member 40 ′ of the third layer. (See FIG. 3).
- the phase converter 15 may be formed by stacking two phase converters 10 ′′. That is, the first layer of the transparent member 20′x, the second layer of the transparent member 30 ′, the y direction, and the third layer.
- the phase conversion device 10 ′′ in which the x-directions of the transparent members 40 ′ are aligned the first-layer transparent member 20 ′ x direction, the second-layer transparent member 30 ′ direction
- a phase conversion device 10 ′′ in which the x-directions of three layers of transparent members 40 ′ are aligned and arranged is arranged (see FIG. 4).
- the phase conversion device 60 is obtained by connecting the first layers of the phase conversion devices 10 ′′ and 10 ′′ with the conductor portion 50.
- the conducting wire part 50 conducts electricity, it is preferable, and a copper wire, copper foil, and silver foil are preferable.
- the transparent members 20 ′ and 40 ′ of the first layer and the third layer are equivalent, and the effect is the same regardless of which of the transparent members 20 ′ and 40 ′ is the first layer. .
- the conducting wire part 50 is composed of a wire part 51 and fixing parts 52 and 52.
- the fixing portions 52 and 52 are disposed on the first layers 20 ′′ and 20 ′′ of the phase conversion devices 10 ′′ and 10 ′′, respectively. The result of the wave measuring device will be described later. Further, a phase conversion device in which the phase conversion devices 10 and 10 are coupled by the conducting wire portion 50 or a structure in which the phase conversion devices 10 ′ and 10 ′ are connected by the conducting wire portion 50 is also preferable.
- the phase conversion device 70 connects the first layers of the phase conversion devices 10 ′′ and 10 ′′ with the conducting wire part 50, and further superimposes the phase conversion devices 10 ′′ and 10 ′′ to provide the phase conversion device 10 ′′,
- the material 80 is inserted between 10 ′′.
- the substance means, for example, vitamin minerals and supplements, and Pueraria Mirifica is preferable.
- the conductive wire portion 50 is a material that conducts electricity, and a copper wire and a copper foil are preferable as described above. The result of the wave measuring device will be described later.
- the first layer and the third layer of the transparent members 20 'and 40' are equivalent, and it has already been described that the effect is the same regardless of which of the transparent members 20 'and 40' is the first layer. That's right.
- the phase converters 10 and 10 are coupled by the conducting wire portion 50, and the phase converters 10 and 10 are overlapped with each other and the substance 80 is inserted therebetween, or the phase converters 10 'and 10' are connected. It is also preferable to connect the lead wires 50 and overlap the phase converters 10 'and 10' and insert the substance 80 therebetween.
- a phase conversion device 90 which is another embodiment is one in which mounting portions 91 and 92 made of a conductor are arranged on the first layer of the phase conversion device 10 ′′ already described.
- the conductor is preferably made of copper, and the transparent members 20 ', 40' of the first layer and the third layer are equivalent, and either of the transparent members 20 ', 40' is the first layer.
- the mounting portion 91 has a substantially hexagonal shape, that is, the mounting portion 91 has a quadrangular shape and is composed of an upper right portion and a lower left portion or an upper left portion and a lower right portion.
- the mounting part 92 has an upper right part and a lower left part or an upper left part. Arranged from two pairs of diagonals in the lower right to the other upper left and lower right. In addition, the result of a wave measuring device is good as will be described later.
- the phase conversion device 95 is configured such that the phase conversion devices 10 ′′ and 10 ′′ are overlapped with each other, a copper foil portion 96 smaller than the area of the phase conversion device 10 is attached to the upper surface, and a copper foil is attached to the lower surface.
- the O-ring test as a method for estimating the influence of electromagnetic waves on the human body, it is possible to immediately know the reaction when the electromagnetic waves are harmful. That is, let the subject make a ring (that is, an O-ring) by putting the thumb and other fingertips together, and place the other hand near the affected area of the subject, and the subject's finger makes the ring of the subject. This is a method of estimating the change in the force to close the subject's ring while trying to pull away.
- the skill of the person performing the test may affect the results of the O-ring test. That is, there is a problem that the test result is subjective and it is difficult to quantify the change.
- a wave measuring instrument has a unique wave in human organs, etc., and by examining the resonance frequency of the wave, it is possible to determine whether it is good for the body or not It can be said that the result is relatively objective than the O-ring.
- “good for the body” is considered to mean, for example, that muscles relax and blood flow improves.
- the wave measuring device is preliminarily input with wave information related to the maintenance of the health of the living body, and it is considered that the disturbance of energy balance in the body can be detected by measuring the wave.
- Table 1 below shows the measurement results of the wave measuring device when the phase converters 10, 10 ′, and 10 ′′ are used.
- the wave measuring device is a well-known “MIRS” manufactured by Acte-to-One. Used (same in Tables 2-5).
- MIRS Magnetic Ink Characteristics
- a test was performed using a mobile phone as an electric device that generates electromagnetic waves (calling), and attaching a phase conversion device to the mobile phone.
- the transparent members in the respective phase conversion devices in Tables 1 to 5 below use OPP tape.
- Table 1 In Table 1, the pre-experiment A is a numerical value when each item is measured with a wave measuring instrument in a state where a mobile phone which is an electrical device is not used.
- the mobile phone use i is a numerical value measured when the mobile phone is used in a state where the phase conversion device is not attached to the mobile phone.
- the mobile phone use state is a measured value when the phase conversion device 10 is attached to the mobile phone and the mobile phone is used (calling).
- the mobile phone use d is a measured value when the phase conversion device 10 'is attached to the mobile phone and the mobile phone is used (calling)
- the mobile phone use e is the phase conversion device for the mobile phone.
- 10 ′′ is a measured value when the mobile phone is used (talking). Therefore, the numerical values for the pre-experiment and the mobile phone use b are wave motions for comparison in measuring the effect of the present invention. It is a numerical value measured with a measuring machine.
- the numerical value when the mobile phone is not used is 12.
- the numerical value drops to 10. Therefore, it is considered that when a mobile phone is used, electromagnetic waves are generated and the function of the body is lowered, and the immune function is lowered.
- the phase conversion device 10 according to the present invention is attached to a mobile phone in this state, the numerical value increases to 15. If you measure each item in this way, those numbers will rise. Despite the differences in the numbers, almost the same trend is observed. Therefore, as described above, the present invention can improve the numerical value of the wave measuring device, so that it is considered that the influence of the electromagnetic wave generated from the electric device or the like can be reduced as much as possible.
- the phase conversion device 10 ' when the phase conversion device 10 'according to the present invention is attached to a mobile phone, the numerical value rises to 15 in the item of immunity even in this case. In this way, when measured for each item, there is a difference in the numerical values, but almost the same tendency is observed.
- the numerical value of the immunity item also rises to 14 in the phase conversion device 10 ′′. Therefore, as described above, the present invention can improve the numerical value of the wave measuring device, and thus the electromagnetic wave generated from the electric device or the like can be improved. It is thought that the impact can be reduced as much as possible.
- Table 2 below shows measured values of the wave measuring instrument when the phase conversion devices 15, 60, and 70 are respectively attached to a mobile phone and used (talk).
- Table 2 Here, as in Table 1, the pre-experiment A in Table 2 above is a numerical value when each item is measured with a wave measuring instrument in a state where a mobile phone which is an electrical device is not used.
- the mobile phone use i is a numerical value measured when the mobile phone is used in a state where the phase conversion device is not attached to the mobile phone.
- the mobile phone use power is a measured value when the mobile phone is used (calling) with the phase conversion device 15 in which two phase conversion devices 10 ′′ are stacked on the mobile phone.
- the use key is a measured value when two phase conversion devices 10 ′′ are used in a cellular phone, and when the cellular phone is used (calling) with the phase transformation device 60 connected by copper foil attached.
- mobile phone use is when two sets of phase converters 10 ′′ are used in a mobile phone, and the mobile phone is used with a phase converter 70 sandwiching a substance (pueraria mirifica) attached (calling) Therefore, as in Table 1, the pre-experiment a and the mobile phone use b are numerical values measured with a wave measuring device in order to compare the effects.
- the numerical value when the mobile phone is not used is 12 as in Table 1. If the mobile phone is used in a state where the phase conversion device is not attached to the mobile phone, the numerical value drops to 10. In this state, when the phase conversion device 15 according to the present invention is attached to a mobile phone in this state, the numerical value increases to 15. In this way, if each item is measured, there will be almost the same tendency, even if the numerical values are different. Therefore, as described above, the present invention can improve the numerical value of the wave measuring device, so that it is considered that the influence of the electromagnetic wave generated from the electric device or the like can be reduced as much as possible.
- the phase conversion device 60 according to the present invention when the phase conversion device 60 according to the present invention is attached to a mobile phone, the numerical value increases to 15 in the item of immunity even in this case. In this way, when measured for each item, those numbers rise and there are differences in the numbers, but almost the same trend is observed. In addition, the numerical value of the phase conversion device 170 increases to 15 for the immunity item. Therefore, as described above, the present invention can improve the numerical value of the wave measuring device, so that it is considered that the influence of the electromagnetic wave generated from the electric device or the like can be reduced as much as possible.
- Table 3 below shows measured values of the wave measuring instrument when the phase conversion devices 90 and 95 are attached to a mobile phone and used (talk).
- Table 3 Here, as in Table 1, in Table 3 above, the pre-experiment A is a numerical value when each item is measured with a wave measuring instrument in a state where a mobile phone which is an electrical device is not used.
- the mobile phone use i is a numerical value measured when the mobile phone is used in a state where the phase conversion device is not attached to the mobile phone.
- the mobile phone use case is a measured value when the phase conversion device 90 is attached to the mobile phone and the mobile phone is used (calling).
- the mobile phone use value is a measured value when the phase conversion device 95 is attached to the mobile phone and the mobile phone is used (calling).
- the numerical value when the mobile phone is not used is 12 as in Table 1.
- the numerical value drops to 10.
- the phase conversion device 90 according to the present invention is attached to the mobile phone, the numerical value increases to 14. In this way, if each item is measured, there will be almost the same tendency, even if the numerical values are different. Therefore, as described above, the present invention can improve the numerical value of the wave measuring device, so that it can be considered that the influence of electromagnetic waves generated from electric devices and the like can be reduced as much as possible. Further, when the phase conversion device 95 according to the present invention is attached to a mobile phone, the numerical value increases to 14 in the item of immunity in this case as well.
- the present invention can improve the numerical value of the wave measuring device, so that it is considered that the influence of the electromagnetic wave generated from the electric device or the like can be reduced as much as possible.
- Table 4 below shows that the phase conversion device 10 ′′ 15, 60, 90 is separated from the mobile phone by 25 cm, and a mobile phone not equipped with the phase conversion device 10 ′′ 15, 60, 90 is used (call). This is the measured value of the wave measuring instrument.
- Table 4 similarly to Table 1, in Table 4 above, the pre-experiment A is a numerical value when each item is measured with a wave measuring instrument in a state where a mobile phone which is an electrical device is not used.
- the mobile phone use b is a numerical value measured when the mobile phone is used in a state where the phase conversion device does not exist.
- the mobile phone use unit is a measured value when the phase conversion device 10 ′′ is separated from the mobile phone by 25 cm and a mobile phone without the phase conversion device 10 ′′ is used (calling).
- the mobile phone use system, the mobile phone, and the mobile phone use the mobile phone that is not attached with the phase conversion device 15, 60, 90 by separating the phase conversion device 15, 60, 90 from the mobile phone by 25 cm. It is a measured value in the case of.
- the value when the mobile phone is not used is 12 as in Table 1. If a mobile phone is used in the absence of a phase conversion device, the value drops to 10. Here, if only the phase conversion device 10 ′′ is separated from the mobile phone by 25 cm and a mobile phone without the phase conversion device 10 ′′ is used, the immunity value rises to 14, for example. When each item is measured in this way, the numerical values increase and the numerical values differ, but the same tendency is observed. Therefore, as described above, the present invention can improve the numerical value of the wave measuring device, so that it can be considered that the influence of electromagnetic waves generated from electric devices and the like can be reduced as much as possible.
- the numerical value of the immunity item similarly increases to 14. In this way, when measured for each item, those numbers rise and there are differences in the numbers, but almost the same trend is observed. Therefore, as described above, the present invention can improve the numerical value of the wave measuring device even when it is separated from the electric equipment, and thus can reduce the influence of electromagnetic waves generated from the electric equipment as much as possible. it is conceivable that.
- the phase converter 95 is attached to a smart phone among electric equipments, and it is put in the position 2 meters away. After that, it is a result of measurement with a wave measuring device in a state where a telephone call is made with a mobile phone not equipped with a phase conversion device.
- the pre-experiment A is a numerical value when each item is measured with a wave measuring instrument in a state where a mobile phone which is an electrical device is not used.
- the mobile phone use b is a numerical value measured when the mobile phone is used in a state where the phase conversion device does not exist.
- the phase conversion device 95 is attached to a smartphone which is an electric device different from the mobile phone while using (calling) a mobile phone without the phase conversion device attached.
- the measurement was performed by separating the smartphone equipped with the phase conversion device 95 from the mobile phone in use (calling) by 2 meters. In this way, the effect of the phase conversion device 95 is exerted even at a position 2 meters away from the mobile phone in a state where the phase conversion device 95 is attached to the smartphone and the phase conversion device is not attached during a call. It can be confirmed.
- the phase conversion device 10, 10 ', 10 ", 60, 70, 80, 90, 95 converts the phase of the electromagnetic wave. It is also preferable to be attached to an electric device such as a cellular phone. It is also preferable to place it in a separated position, and by wearing a phase conversion device, the effect of reducing electromagnetics can be achieved. It is thought that it can be changed to a left-handed circularly polarized wave.
- the apparatus of the present invention configured as described above is applied to a human body, affixed to an electrical device, or placed near a device that generates an electromagnetic wave, etc.
- the electric and magnetic influences of electromagnetic waves can be attenuated or eliminated. Therefore, there is a possibility that electromagnetic waves can be converted by arranging them in offices, homes, clinics, hospitals, and the like. If an antenna is used, there is a possibility that the effect can be exerted over a wide range.
- the apparatus of the present invention can be applied in various ways. It is preferable that the converter is attached to an oscillation circuit or the like that generates electromagnetic waves. Furthermore, although a wave plate can be used, the influence of the electric field can be reduced at a relatively low cost by replacing it with a transparent member such as an OPP tape.
- FIG. 6A is a perspective view of another embodiment of the electromagnetic wave phase conversion device according to the present invention.
- B is a state diagram in which the sheet is pulled out from the roll.
- C is a perspective view of a transparent member.
- D is a perspective view of a transparent member.
- FIG. 6A is a perspective view of another embodiment of the electromagnetic wave phase conversion device according to the present invention.
- B is a state diagram in which the sheet is pulled out from the roll.
- C is a perspective view of a transparent member.
- D is a perspective view of a transparent member.
- E is a perspective view of a transparent member. It is a perspective view of the other Example of the phase conversion apparatus of the electromagnetic wave which concerns on this invention.
- FIG. 6A is a perspective view of another embodiment of the electromagnetic wave phase conversion device according to the present invention. B is a side view of A.
- FIG. A is a perspective view of a phase converter of another embodiment.
- B is a perspective view of the back side of the phase converter of another embodiment.
- C is a sectional view taken along line AA of A.
- phase conversion device 15 phase conversion device 20, half lambda wave plate 20 ′ transparent member 30, quarter lambda wave plate 30 ′ transparent member 40, half lambda wave plate 40 'transparent member 50 conducting wire part 51 wire part 52 fixing part 60 phase converter 70 phase converter 80 substance 90 phase converter 91 mounting part 92 mounting part 95 phase converter
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- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Electromagnetism (AREA)
- Measurement And Recording Of Electrical Phenomena And Electrical Characteristics Of The Living Body (AREA)
- Shielding Devices Or Components To Electric Or Magnetic Fields (AREA)
- Aerials With Secondary Devices (AREA)
- Details Of Aerials (AREA)
Abstract
Description
表1
上記表1について、実験前アとは、電気機器である携帯電話を使用していない状態で、波動測定器で各項目を測定した場合の数値である。また、携帯電話使用イとは、位相変換装置を携帯電話に取り付けていない状態で携帯電話を使用した場合に測定した数値である。携帯電話使用ウとは、携帯電話に位相変換装置10を取り付けて当該携帯電話を使用(通話)した場合における測定値である。同様に、携帯電話使用エとは、携帯電話に位相変換装置10′を取り付けて当該携帯電話を使用(通話)した場合における測定値であり、携帯電話使用オとは、携帯電話に位相変換装置10″を取り付けて当該携帯電話を使用(通話)した場合における測定値である。従って、実験前アと、携帯電話使用イにおける各数値は、本発明の効果を計る際に比較するために波動測定機で測定した数値である。
表2
ここで表1と同様に、上記表2について実験前アとは、電気機器である携帯電話を使用していない状態で、波動測定器で各項目を測定した場合の数値である。また、携帯電話使用イとは、位相変換装置を携帯電話に貼りつけていない状態で当該携帯電話を使用した場合に測定した数値である。また、携帯電話使用カとは、携帯電話に位相変換装置10″を2枚重ねた位相変換装置15を取り付けて当該携帯電話を使用(通話)した場合における測定値である。同様に、携帯電話使用キとは、携帯電話に位相変換装置10″を2枚使用した場合であってそれを銅箔で接続した位相変換装置60を取り付けて当該携帯電話を使用(通話)した場合における測定値であり、携帯電話使用クとは、携帯電話に位相変換装置10″を2組使用した場合であって、物質(プエラリアミリフィカ)を挟み込んだ位相変換装置70を取り付けて当該携帯電話を使用(通話)した場合における測定値である。従って、表1と同様に実験前アと、携帯電話使用イは、効果を対比するために波動測定機で測定した数値である。
表3
ここで表1と同様に、上記表3についても実験前アとは、電気機器である携帯電話を使用していない状態で、波動測定器で各項目を測定した場合の数値である。また、携帯電話使用イとは、位相変換装置を携帯電話に貼りつけていない状態で携帯電話を使用した場合に測定した数値である。また、携帯電話使用ケとは、携帯電話に位相変換装置90を取り付けて携帯電話を使用(通話)した場合における測定値である。同様に、携帯電話使用コとは、携帯電話に位相変換装置95を取り付けて携帯電話を使用(通話)した場合における測定値である。
表4
ここで表1と同様に、上記表4についても実験前アとは、電気機器である携帯電話を使用していない状態で、波動測定器で各項目を測定した場合の数値である。また、携帯電話使用イとは、位相変換装置が存在しない状態において携帯電話を使用した場合に測定した数値である。また、携帯電話使用サとは、位相変換装置10″を携帯電話から25cm離して、位相変換装置10″を取り付けていない携帯電話を使用(通話)した場合における測定値である。同様に、携帯電話使用シ、ス、セとは、それぞれ位相変換装置15、60、90を携帯電話から25cm離して、位相変換装置15、60、90を取り付けていない携帯電話を使用(通話)した場合における測定値である。
ここで表1と同様に、上記表5についても実験前アとは、電気機器である携帯電話を使用していない状態で、波動測定器で各項目を測定した場合の数値である。また、携帯電話使用イとは、位相変換装置が存在しない状態において携帯電話を使用した場合に測定した数値である。携帯電使用ソとは、位相変換装置を取り付けない状態の携帯電話を使用(通話)しつつ、当該携帯電話とは別の電気機器であるスマートフォンに位相変換装置95を取り付ける。この位相変換装置95を取り付けたスマートフォンを、前記使用(通話)している携帯電話から2メートル離して測定したものである。このように、位相変換装置95をスマートフォンに取り付けた状態で、通話中の位相変換装置を取り付けない状態の携帯電話から、当該スマートフォンを2メートル離した位置においてもこの位相変換装置95による効果を及ぼすことが確認できるのである。
15 位相変換装置
20、2分の1ラムダ波長板
20′ 透明部材
30、4分の1ラムダ波長板
30′透明部材
40、2分の1ラムダ波長板
40′透明部材
50 導線部
51 線部
52 固定部
60 位相変換装置
70 位相変換装置
80 物質
90 位相変換装置
91 載置部
92 載置部
95 位相変換装置
Claims (6)
- 電磁波を、右旋円偏波および左旋円偏波に変換して、電気的磁気的影響を軽減させる位相変換装置であって、当該装置は、3層からなり第1層は2分の1ラムダ波長板、第2層は4分の1ラムダ波長板、第3層は2分の1ラムダ波長板を備えることを特徴とする位相変換装置。
- 電磁波を、右旋円偏波および左旋円偏波に変換して、電気的磁気的影響を軽減させる位相変換装置であって、当該装置は、当該装置は、3層からなり第1層および第3層を透明部材で構成したことを特徴とする請求項1記載の位相変換装置。
- 電磁波を、右旋円偏波および左旋円偏波に変換して、電気的磁気的影響を軽減させる位相変換装置であって、当該装置は、当該装置は、3層からなり第1層、第2層および第3層を透明部材で構成したことを特徴とする請求項1記載の位相変換装置。
- 請求項3記載の位相変換装置を2つ配置し、前記2つの位相変換装置におけるそれぞれの第1層同士を導線部で接続したことを特徴とする位相変換装置。
- 請求項3記載の位相変換装置を2つ配置し、前記2つの位相変換装置におけるそれぞれの第1層同士を導線部で接続し、かつ、その2つの位相変換装置の間に、物質を配置することを特徴とする位相変換装置。
- 請求項3記載の位相変換装置の上部に導電体で構成される載置部を配置することを特徴とする位相変換装置。
Priority Applications (5)
Application Number | Priority Date | Filing Date | Title |
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EP13872416.6A EP2950393A4 (en) | 2013-01-25 | 2013-01-25 | CONVERSION DEVICE FOR ELECTROMAGNETIC WAVES |
PCT/JP2013/051624 WO2014115312A1 (ja) | 2013-01-25 | 2013-01-25 | 電磁波の位相変換装置 |
CN201380071287.0A CN104937776A (zh) | 2013-01-25 | 2013-01-25 | 电磁波相位转换装置 |
US14/654,968 US9531080B2 (en) | 2013-01-25 | 2013-01-25 | Phase conversion device for electromagnetic wave |
JP2014558393A JP5922264B2 (ja) | 2013-01-25 | 2013-01-25 | 電磁波の位相変換装置 |
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PCT/JP2013/051624 WO2014115312A1 (ja) | 2013-01-25 | 2013-01-25 | 電磁波の位相変換装置 |
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US (1) | US9531080B2 (ja) |
EP (1) | EP2950393A4 (ja) |
JP (1) | JP5922264B2 (ja) |
CN (1) | CN104937776A (ja) |
WO (1) | WO2014115312A1 (ja) |
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KR100241660B1 (ko) * | 1997-05-22 | 2000-03-02 | 서원석 | 광섬유 편광 조절장치 |
JP2000245813A (ja) * | 1999-02-26 | 2000-09-12 | Yoshio Tsuruoka | 電磁波の周波数の測定方法および微生物等の殺滅除去方法 |
JP3654134B2 (ja) * | 2000-04-28 | 2005-06-02 | セイコーエプソン株式会社 | Oリングテスト装置 |
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JP3576540B2 (ja) | 2002-08-19 | 2004-10-13 | 沖電気工業株式会社 | マルチチップパッケージ |
US6922221B2 (en) * | 2002-10-17 | 2005-07-26 | Research Foundation Of The University Of Central Florida | Broadband quarter-wave film device including in combination a chromatic half-wave film and a TN-LC polymeric film |
-
2013
- 2013-01-25 JP JP2014558393A patent/JP5922264B2/ja active Active
- 2013-01-25 EP EP13872416.6A patent/EP2950393A4/en not_active Withdrawn
- 2013-01-25 CN CN201380071287.0A patent/CN104937776A/zh active Pending
- 2013-01-25 WO PCT/JP2013/051624 patent/WO2014115312A1/ja active Application Filing
- 2013-01-25 US US14/654,968 patent/US9531080B2/en active Active
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US5188107A (en) | 1985-10-08 | 1993-02-23 | Yoshiaki Omura | Bi-digital O-ring test for imaging and diagnosis of internal organs of a patient |
JPH1068816A (ja) * | 1996-08-29 | 1998-03-10 | Sharp Corp | 位相差板及び円偏光板 |
JP2004500776A (ja) * | 2000-03-14 | 2004-01-08 | エイチアールエル ラボラトリーズ,エルエルシー | 無線周波アパーチャ |
JP2002290303A (ja) * | 2001-03-26 | 2002-10-04 | Nec Tokin Corp | 回り込みキャンセラ |
JP2002299880A (ja) | 2001-03-30 | 2002-10-11 | Seiko Epson Corp | 電磁波遮蔽用アンテナ素子及びこれを使用した電磁波遮蔽体 |
JP2004079762A (ja) * | 2002-08-19 | 2004-03-11 | Japan Science & Technology Corp | 電波遮蔽材料 |
JP2006119492A (ja) * | 2004-10-25 | 2006-05-11 | Seiko Epson Corp | 光学ローパスフィルタ |
JP2009258738A (ja) * | 2008-04-15 | 2009-11-05 | Jds Uniphase Corp | レーザ照明システム用のリターダー・ベース・スペックル除去デバイス |
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Also Published As
Publication number | Publication date |
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CN104937776A (zh) | 2015-09-23 |
US20150333410A1 (en) | 2015-11-19 |
JPWO2014115312A1 (ja) | 2017-01-26 |
EP2950393A1 (en) | 2015-12-02 |
EP2950393A4 (en) | 2016-08-31 |
US9531080B2 (en) | 2016-12-27 |
JP5922264B2 (ja) | 2016-05-24 |
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