WO2021035566A1 - 生物能量信号撷取及转换装置 - Google Patents

生物能量信号撷取及转换装置 Download PDF

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WO2021035566A1
WO2021035566A1 PCT/CN2019/102998 CN2019102998W WO2021035566A1 WO 2021035566 A1 WO2021035566 A1 WO 2021035566A1 CN 2019102998 W CN2019102998 W CN 2019102998W WO 2021035566 A1 WO2021035566 A1 WO 2021035566A1
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signal
energy
bio
unit
energy signal
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PCT/CN2019/102998
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English (en)
French (fr)
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郑惇方
洪廷翰
龚柏元
倪嘉德
沈勋燦
叶文俊
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郑惇方
洪廷翰
龚柏元
倪嘉德
沈勋燦
叶文俊
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Application filed by 郑惇方, 洪廷翰, 龚柏元, 倪嘉德, 沈勋燦, 叶文俊 filed Critical 郑惇方
Priority to US17/636,648 priority Critical patent/US20230172472A1/en
Priority to CA3155091A priority patent/CA3155091C/en
Priority to PCT/CN2019/102998 priority patent/WO2021035566A1/zh
Publication of WO2021035566A1 publication Critical patent/WO2021035566A1/zh

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/05Detecting, measuring or recording for diagnosis by means of electric currents or magnetic fields; Measuring using microwaves or radio waves 
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N2/00Magnetotherapy
    • A61N2/02Magnetotherapy using magnetic fields produced by coils, including single turn loops or electromagnets
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N37/00Details not covered by any other group of this subclass
    • G01N37/005Measurement methods not based on established scientific theories

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  • the invention relates to a signal capture and conversion device, in particular to a biological energy signal capture and conversion device.
  • a bio-energy signal acquisition and conversion device is a device that captures and enhances the energy signal of an original bio-energy body to be transmitted, and transmits it directly to the bio-energy carrier to be received for signal acceptance and conversion, such as the device made by MedTronik, Germany MORA Super+ biological energy resonance electronic equipment.
  • the device made by MedTronik, Germany MORA Super+ biological energy resonance electronic equipment In 2013, Liu Lingling, Zheng Dunfang and others proposed journal papers in European Journal of Integrative Medicine ⁇ Effectiveness of MORA electronic homeopathic copies of remedies for allergic rhinitis: A short-term, randomized, placebo-controlled PI A research report on the use of MORA Super+ bio-energy resonance electronic equipment to effectively treat allergic rhinitis is also proposed.
  • the energy of the energy signal of the original biological energy body to be transmitted is very low, so many unnecessary environmental noise signals are mixed in when the signal is captured, and part of the circuit noise is also mixed in during the enhancement process. Therefore, the biological energy carrier to be received is mixed. In addition to the received energy signal from the original biological energy to be transmitted, it also accepts uncorrelated noise signals. The proportion of noise signals even exceeds the original biological energy body to be transmitted. Therefore, it greatly reduces the biological energy to be received by the biological energy carrier. The effect of characteristic signals.
  • the signal capturing method of the existing bio-energy signal capturing and converting device must be further equipped with a complex signal processing circuit to process various bio-energy characteristics.
  • the present invention provides a bio-energy signal acquisition and conversion device. It includes a signal capture module, a signal processing module and a signal output unit.
  • the signal extraction module is used to enhance and intensify the bio-energy signal generated by an original bio-energy body, and to capture an original bio-energy signal after the enhancement and excitation.
  • Primitive bio-energy bodies include organisms (all or part of their tissues) and their derivatives (such as biological fluids, secretions, excreta), and include their normal or pathological biological derivatives, such as blood, sputum, nasal mucus, urine, or Pus, etc.; normal, hoarded, or infected-related pathological substances of epidermal keratin, such as hair, nails, dander, etc., composed of energy bodies and bio-energy carriers (the energy signals can be extracted for processing, such as copying and summing) Or filter reduction) and so on.
  • the signal processing module is electrically connected to the signal acquisition module to receive the original bio-energy signal and perform filtering and amplifying processing on the original bio-energy signal to generate an output energy signal.
  • the signal output unit is electrically connected to the signal processing module to receive the output energy signal and output the output energy signal to a bio-energy carrier, and proposes a better conversion method to improve the carrier's efficiency of carrying the converted bio-energy signal.
  • the signal acquisition module can greatly reduce noise and improve the signal acquisition method through better design, and then receive the enhanced and stimulated bio-energy signal, and make the noise ratio of the original bio-energy signal captured by the signal acquisition module Significantly reduce, reduce the signal processing complexity of the back-end signal processing module, and further achieve the purpose of simplifying the technical cost and operational difficulty of the overall device.
  • the signal output unit proposes a better designed conversion structure to shorten the distance between the bio-energy carrier and the signal output unit, so as to enhance the receiving efficiency of the bio-energy carrier, and maximize the efficiency of the bio-energy carrier in converting the bio-energy signal.
  • FIG. 1 is a three-dimensional schematic diagram of the appearance of the biological energy signal acquisition and conversion device of the present invention.
  • Fig. 2 is a block diagram of the bio-energy signal acquisition and conversion device of the present invention.
  • FIG. 3 is a schematic cross-sectional view of the carrying case of the biological energy signal acquisition and conversion device of the present invention.
  • Fig. 4 is a three-dimensional schematic diagram of the external appearance of the carrying case of the biological energy signal acquisition and conversion device of the present invention.
  • FIG. 5 is a three-dimensional schematic diagram of the appearance of the signal output unit of the biological energy signal acquisition and conversion device of the present invention.
  • Fig. 6 is a three-dimensional schematic diagram of the application of the biological energy signal acquisition and conversion device of the present invention.
  • FIG. 7 is a block diagram of a second preferred embodiment of the biological energy signal acquisition and conversion device of the present invention.
  • a biological energy signal acquisition and conversion device includes a signal acquisition module 10, a signal processing module 20, and a signal output unit 30.
  • the signal capture module 10 is used to capture a bioenergy signal generated by an original bioenergy body, and the signal capture module 10 first performs an enhancement and activation on the original bioenergy body, and then receives an enhanced and activated original Bioenergy signal.
  • the signal processing module 20 is electrically connected to the signal capturing module 10 to receive the original bio-energy signal and perform filtering and amplifying processing on the original bio-energy signal to generate an output energy signal.
  • the signal output unit 30 is electrically connected to the signal processing module 20 to receive the output energy signal and output the output energy signal to a biological energy carrier.
  • the signal capture module 10 includes a carrier box 11, a first magnetic unit 12 and a signal receiving unit 13.
  • the carrying box 11 includes a base 111 and an upper cover 112. One side of the upper cover 112 is pivotally connected to the base 111 and can be pivotally closed with the base 111.
  • the first magnetic unit 12 is arranged on an inner surface of the upper cover 112
  • the signal receiving unit 13 is arranged on an upper surface of the base 111 for carrying an original biological energy body and receiving the original biological energy A primitive bio-energy signal produced by the body.
  • the upper cover 112 and the base 111 are pivotally closed, there is a accommodating space 110 between the first magnetic unit 12 and the signal receiving unit 13.
  • the signal processing module 20 is disposed in the internal space of the base 111 and is electrically connected to the signal receiving unit 13.
  • the signal processing module 20 receives the original bio-energy signal from the signal receiving unit 13, and performs a filtering and amplification on the original bio-energy signal Processing to generate an output energy signal.
  • the signal output unit 30 is electrically connected to the signal processing module 20 to receive the output energy signal and output the output energy signal to a biological energy carrier.
  • the original bio-energy body is located in the accommodating space 110 and between the signal receiving unit 13 and the first magnetic unit 12, the first magnetic unit 12 Can approach the original bio-energy body at a similar short distance, use the magnetic field distance physical characteristics of the magnetic substance, and excite the original bio-energy body with the largest magnetic field formed by the short distance of the first magnetic unit 12 to generate the largest bio-energy signal , And the signal receiving unit 13 directly receives the enhanced original bio-energy signal, so that the ratio of the original bio-energy signal in the signal received by the signal receiving unit 13 is increased, and the ratio of noise from the surrounding environment is greatly reduced.
  • the original bio-energy signal received by the signal receiving unit 13 is strengthened. Intensity and greatly reduce the proportion of noise.
  • the original bio-energy body is placed in the carrying box 11 and protected by the upper cover 112, and is not easily affected by external force collisions. In this way, through the improved structure of the carrying box 11 and the activation of the original bioenergy by the first magnetic unit 12, the signal quality received by the front-end signal receiving unit 13 is greatly improved, thereby further reducing the back-end signal processing.
  • the original bioenergy body includes all or part of the tissues of the organism, or derivatives of the organism, such as biological fluids, secretions, excreta, and includes its normal or pathological biological derivatives, such as blood, sputum, nasal mucus, and urine.
  • the original bio-energy body may also be a bio-energy carrier.
  • the bio-energy carrier that has received the bio-energy signal in the present invention can be processed by extracting the energy signal again, such as copying, adding, or filtering.
  • the signal output unit 30 includes a coil 31 that is electrically connected to the signal processing module 20 to receive the output energy signal and send the output energy signal.
  • the coil 31 is electrically connected to the signal processing module 20 provided in the inner space of the base 111 through a wire.
  • an output terminal 1111 is provided on a side wall of the base 111 of the carrying box 11, and the output terminal 1111 is electrically connected to the signal processing module 20 to output the output Energy signal.
  • the signal output unit 30 further includes a tube body 32, preferably a hollow tube body.
  • the tube body 32 has a carrier accommodating space 320, and one of the opposite ends of the tube body 32 is formed with an opening. The other end is provided with an input terminal 321, the input terminal 321 is electrically connected to the output terminal 1111 of the base 111 through the wire, and the opening of the tube body 32 communicates with the carrier accommodating space 320 of the tube body 32.
  • the coil 31 is wound around the tube body 32 and is electrically connected to the input terminal 321 to receive the output energy signal output by the signal processing module 20 through the wire and the output terminal 1111 of the base 111.
  • the carrier accommodating space 320 is for placing a bio-energy carrier, and the bio-energy carrier receives the output energy signal of the coil 31.
  • the bioenergy carrier is preferably a bottled liquid 40 such as wine, vinegar or water, or a solid such as quartz, crystal, salt, sugar or magnetic substance.
  • the carrier accommodating space 320 of the tube body 32 may not contain a carrier.
  • the coil 31 is used to directly send the output energy signal through the opening of the tube body 32 to an external organism within a certain distance.
  • Energy carrier this bio-energy carrier includes animal or human body.
  • the signal receiving unit 13 is a metal plate, such as a metal plate made of gold, silver, or copper.
  • the inner surface of the upper cover 112 is concavely formed with a fitting groove 1121, and the first magnetic unit 12 is disposed in the fitting groove 1121, and is preferably fixed by bolts, pasted or fitted into the fitting groove 1121.
  • the signal receiving unit 13 is disposed corresponding to the embedding groove 1121, and the thickness of the signal receiving unit 13 plus the thickness of the first magnetic unit 12 is less than a depth of the embedding groove 1121.
  • the signal receiving unit 13 will be received in the fitting groove 1121, and will not contact the first magnetic unit 12, and form a short distance, so that the The accommodating space 110 with a fixed height is formed between the signal receiving unit 13 and the first magnetic unit 12 for accommodating the biological energy body.
  • the signal processing module 20 includes a filtering unit 21 and an amplifying unit 22.
  • the filtering unit 21 is electrically connected to the signal receiving unit 13 to receive the signal.
  • the original bio-energy signal, and the related noise that does not belong to the range of the bio-energy signal to be used is greatly attenuated and removed, such as filtering out low-frequency 50/60Hz AC power waves, high-frequency mobile phone or radio wave environmental noise, etc., to produce an output Filter the signal.
  • the amplifying unit 22 is electrically connected to the filter unit 21 and receives the filtered signal and performs an amplifying conversion to generate the output energy signal.
  • the output terminal 1111 is electrically connected to the amplifying unit 22 for outputting the output energy signal.
  • the signal processing module 20 includes a power supply unit 23 disposed in the inner space of the base 111, and the power supply unit 23 is used to provide the power required by the filtering unit 21 and the amplifying unit 22.
  • the power supply unit 23 is, for example, a battery.
  • the signal processing module 20 includes a power conversion unit 24, electrically connected to the filter unit 21 and the amplifying unit 22, and electrically connected to an external power source to convert the external power source and provide power to the filter unit 21 and the amplifying unit 22.
  • the signal output unit 30 further includes a second magnetic unit 33, which can be disposed in the carrier 32 of the tube body. It is placed in the space 320 to enhance the effectiveness of the coil 31.
  • the second magnetic unit 33 can also use the physical characteristics of the magnetic field distance of the magnetic substance to be placed around the coil 31 or other positions inside, in the tube body or around the outer side of the tube body and close to it. Coils, and other locations around or inside the bioenergy carrier 40.
  • the present invention strengthens the bio-energy signal generated by the original bio-energy body through a signal acquisition module and performs signal extraction.
  • the signal processing module receives and extracts the original bio-energy signal and performs filtering and amplifying processing on the signal to generate an output energy signal.
  • the output energy signal is generated by the signal output unit. With magnetic material, it can strengthen the output function to output energy signal to the biological energy carrier. By shortening the distance between the original biological energy body and the signal receiving unit, and using the magnetic material to enhance and intensify the original biological energy body, the original biological energy can be received and extracted.
  • the signal strength is improved due to the enhancement and the noise ratio is greatly reduced, which reduces the technical complexity and cost of the back-end signal processing and improves the efficiency of the bio-energy signal.

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Abstract

一种生物能量信号撷取及转换装置,包含信号撷取模块(10),信号撷取模块(10)强化原始生物能量体产生的生物能量信号后并进行信号撷取,信号处理模块(20)接收撷取的原始生物能量信号并对信号进行滤波放大处理,产生输出能量信号,信号输出单元(30)搭配磁性物质(12)可强化输出功能,对生物能量载体(40)输出能量信号;通过缩短原始生物能量体与信号接收单元(13)的距离,并利用磁性物质(12)对原始生物能量体进行增强激化,使所接收撷取的原始生物能量信号强度因强化得以提高且噪声比例大幅降低,减低后端信号处理的技术复杂度及成本并提升生物能量信号的功效。

Description

生物能量信号撷取及转换装置 技术领域
本发明涉及一种信号撷取及转换装置,尤指一种生物能量信号撷取及转换装置。
背景技术
一生物能量信号撷取及转换装置为将一待传输原始生物能量体的能量信号进行撷取,并加以增强,直接传送至待接收生物能量载体进行信号承接转换的装置,如德国MedTronik公司制造的MORA Super+生物能量共振电子设备,2013年刘玲伶、郑惇方等人在European Journal of Integrative Medicine提出期刊论文〈Effectiveness of MORA electronic homeopathic copies of remedies for allergic rhinitis:A short-term,randomized,placebo-controlled PILOT study〉也提出运用使用MORA Super+生物能共振电子设备可有效治疗过敏性鼻炎的研究报告。
惟待传输原始生物能量体的能量信号的能量甚低,故撷取信号时参杂甚多不必要的环境噪声信号,进行增强处理时也会参杂部分电路噪声,故待接收生物能量载体所承接的能量信号除来自原待传输原始生物能量体外,同时也会承接非相关的噪声信号,噪声信号比例甚至超出原待传输原始生物能量体甚巨,因此大幅降低待接收生物能量载体承接生物能量特征信号的效果。
现有生物能量信号撷取及转换装置的信号撷取方法为了解决撷取信号时非相关的噪声信号问题,故于撷取信号后,必须进一步设置复杂信号处理电路,以处理各种生物能量特征信号,有些甚至外接电脑并以软件进行信号辅助处理,造成技术架构的复杂性,且大幅增加了成本。故现有技术的生物能量信号撷取及转换装置势必须进一步进行改良。
发明公开
有鉴于现有技术的生物能量信号撷取及转换装置在前端的信号撷取处理上设计不良,导致后端信号处理方法复杂且成本提高,本发明提供一种生物能 量信号撷取及转换装置,包含一信号撷取模块、一信号处理模块及一信号输出单元。该信号撷取模块用以增强并激化一原始生物能量体产生的生物能量信号,并且撷取一增强激化后的原始生物能量信号。原始生物能量体包括生物(全部或其部分组织)及其衍生物(如生物的体液、分泌液、***物,并包括其正常或病态生物衍生物,如血液、痰、鼻涕、尿液、或脓等;正常、囤积或受感染相关病理物质的表皮角质蛋白,如毛发、指甲、皮屑等)所构成的能量体与生物能量载体(可撷取其能量信号进行处理,如复制、加总或滤减)等。该信号处理模块电连接该信号撷取模块,以接收该原始生物能量信号并对该原始生物能量信号进行滤波放大处理,产生一输出能量信号。该信号输出单元电连接该信号处理模块,以接收该输出能量信号并对一生物能量载体输出该输出能量信号,并提出较佳的转换方式提升载体承载转换后的生物能量信号的功效。
该信号撷取模块通过设计较佳可大幅降低噪声及提高信号的撷取方式,再接收该经增强激化后的生物能量信号,并使得该信号撷取模块撷取的原始生物能量信号中噪声比例大幅降低,减低后端信号处理模块的信号处理复杂度,进一步达到简化整体装置的技术成本及操作难度的目的。
信号输出单元提出较佳设计的转换架构,使生物能量载体与信号输出单元的距离缩短,以增强生物能量载体的接收效率,让生物能量载体转换生物能量信号的效益提升至最大。
附图简要说明
图1是本发明生物能量信号撷取及转换装置的外观立体示意图。
图2是本发明生物能量信号撷取及转换装置的方块示意图。
图3是本发明生物能量信号撷取及转换装置的承载盒体的剖面示意图。
图4是本发明生物能量信号撷取及转换装置承载盒体的外观立体示意图。
图5是本发明生物能量信号撷取及转换装置的信号输出单元的外观立体示意图。
图6是本发明生物能量信号撷取及转换装置的应用立体示意图。
图7是本发明生物能量信号撷取及转换装置的第二较佳实施例的方块示意图。
实现本发明的最佳方式
以下结合附图和具体实施例对本发明进行详细描述,但不作为对本发明的限定。
请参阅图1至图2所示,有鉴于现有技术的生物能量信号撷取及转换装置在前端的信号撷取处理上设计不良,导致后端信号处理方法复杂且成本提高,本发明提供一种生物能量信号撷取及转换装置,包含一信号撷取模块10、一信号处理模块20及一信号输出单元30。该信号撷取模块10用以撷取一原始生物能量体所产生的生物能量信号,且该信号撷取模块10是先对该原始生物能量体进行一增强激化,再接收一增强激化后的原始生物能量信号。该信号处理模块20电连接该信号撷取模块10,以接收该原始生物能量信号并对该原始生物能量信号进行滤波放大处理,产生一输出能量信号。该信号输出单元30电连接该信号处理模块20,以接收该输出能量信号并对一生物能量载体输出该输出能量信号。
请一并参阅图3所示,在本发明的一第一较佳实施例中,该信号撷取模块10包含一承载盒体11、一第一磁性单元12及一信号接收单元13。该承载盒体11包含一底座111及一上盖112,该上盖112的一侧与该底座111枢接,且可与该底座111枢转闭合。其中,该第一磁性单元12设置于该上盖112的一内侧表面,且该信号接收单元13设置于该底座111的一上侧表面,以供承载一原始生物能量体并接收该原始生物能量体产生的一原始生物能量信号。当该上盖112与底座111枢转闭合,该第一磁性单元12与该信号接收单元13间有一容置空间110。该信号处理模块20设置于该底座111的内部空间中且电连接该信号接收单元13,信号处理模块20由该信号接收单元13接收该原始生物能量信号,对该原始生物能量信号进行一滤波放大处理,产生一输出能量信号。该信号输出单元30电连接该信号处理模块20以接收该输出能量信号,并对一生物能量载体输出该输出能量信号。
当该上盖112与该底座111闭合后,该原始生物能量体即位于该容置空间110中,且位在该信号接收单元13及该第一磁性单元12之间,该第一磁性单元12能够以一相近的短距离靠近该原始生物能量体,使用磁性物质的磁场距离物理特性,以该第一磁性单元12的短距形成的最大的磁场激化该原始生物能量体产生最大的生物能量信号,而该信号接收单元13又直接接收该经增强 激化后的原始生物能量信号,使得该信号接收单元13接收到的信号中原始生物能量信号的比例提高,而来自周围环境的噪声比例大幅降低。简而言之,藉由缩短信号接收单元13与原始生物能量体之间的距离,且进一步以第一磁性单元12激化该原始生物能量体,加强提高信号接收单元13接收到的原始生物能量信号强度并大幅降低其中的噪声比例。
除此之外,该原始生物能量体置于该承载盒体11内受到该上盖112保护,而不易受到外力碰撞影响。如此一来,通过改良的该承载盒体11结构及第一磁性单元12对原始生物能量体的激化,使得前端的信号接收单元13所接收到的信号品质大幅提升,因此进一步降低后端信号处理所须的技术难度及成本。该原始生物能量体包括生物的全部或其部分组织,或生物的衍生物,例如生物的体液、分泌液、***物,并包括其正常或病态生物衍生物,如血液、痰、鼻涕、尿液、或脓等;正常、囤积或受感染相关病理物质的表皮角质蛋白,如毛发、指甲、皮屑等所构成的能量体。该原始生物能量体也可能是生物能量载体,例如是本发明中已接收该生物能量信号的生物能量载体,可通过再次撷取其能量信号进行处理,如复制、加总或滤减等。
在本发明的一第一较佳实施例中,该信号输出单元30包含一线圈31,该线圈31电连接该信号处理模块20以接收该输出能量信号,并发送该输出能量信号。较佳的,该线圈31是通过一电线电连接设置于底座111的内部空间的信号处理模块20。
请一并参阅图4及图5所示,较佳的,该承载盒体11的底座111的一侧壁上设置有一输出端子1111,该输出端子1111电连接该信号处理模块20以输出该输出能量信号。而该信号输出单元30进一步包含有一管体32,较佳为一中空的管体,该管体32具有一载体容置空间320,且该管体32的相对两端中的一端形成有一开口,另一端设置有一输入端子321,该输入端子321通过该电线电连接该底座111的输出端子1111,该管体32的开口连通该管体32的载体容置空间320。该线圈31缠绕于该管体32的周围,且电连接该输入端子321以通过该电线及底座111的输出端子1111接收信号处理模块20输出的输出能量信号。该载体容置空间320供放置一生物能量载体,该生物能量载体承接该线圈31的输出能量信号。请参阅图6所示,该生物能量载体较佳为瓶装的液体40例如酒、醋或水,也可为固体例如石英、水晶、盐、糖或磁性物 质。
在另一实施例中,该管体32的载体容置空间320可不置放载体,此时该线圈31用以直接发送该输出能量信号经由该管体32的开口至一定距离内的外部的生物能量载体,此生物能量载体包括动物或人体。
较佳的,该信号接收单元13系一金属板,例如材质为一金、银、或铜的金属板。
更详细的说,该上盖112的内侧表面内凹形成一嵌合槽1121,而该第一磁性单元12设置于该嵌合槽1121中,较佳以螺栓固定、黏贴或嵌合于该嵌合槽1121中。其中,该信号接收单元13对应该嵌合槽1121设置,且该信号接收单元13的厚度加上该第一磁性单元12的厚度小于该嵌合槽1121的一深度。因此,当该上盖112与该底座111闭合,该信号接收单元13会被容纳于该嵌合槽1121中,且不会与该第一磁性单元12接触,且形成较短的距离,使得该信号接收单元13与该第一磁性单元12之间形成该高度固定的容置空间110,以供容置该生物能量体。
请参阅图7所示,在本发明的一第二较佳实施例中,该信号处理模块20包含一滤波单元21、一放大单元22,该滤波单元21电连接该信号接收单元13以接收该原始生物能量信号,并将不属于所欲使用生物能量信号范围的相关噪声大幅衰减去除,例如滤除低频50/60Hz交流电源波、高频的行动电话或无线电电波环境噪声等,以产生输出一滤波信号。该放大单元22电连接该滤波单元21并接收该滤波信号并进行一放大转换,产生该输出能量信号。该输出端子1111电连接该放大单元22以供输出该输出能量信号。
较佳的,该信号处理模块20包含一电源供应单元23,设置于该底座111的内部空间中,该电源供应单元23用以提供该滤波单元21及该放大单元22所需的电能。该电源供应单元23例如是一电池。
在另一实施例中,该信号处理模块20包含一电源转换单元24,电连接该滤波单元21及该放大单元22,且电连接一外部电源,以转换该外部电源并提供电力至该滤波单元21及该放大单元22。
再请参阅图5所示,在本发明的一第三较佳实施例中,该信号输出单元30进一步包含一第二磁性单元33,该第二磁性单元33可设置于该管体32载体容置空间320中以增强线圈31的效能。该第二磁性单元33亦可视该生物能 量载体的种类或结构不同,使用磁性物质的磁场距离物理特性,放置于线圈31周围或内部其它位置、该管体中或该管体外侧周围并贴近线圈,以及生物能量载体40周围或内部其它位置。
以上所述仅是本发明的较佳实施例而已,并非对本发明做任何形式上的限制,虽然本发明已以较佳实施例揭露如上,然而并非用以限定本发明,任何熟悉本专业的技术人员,在不脱离本发明技术方案的范围内,当可利用上述揭示的技术内容做出些许更动或修饰为等同变化的等效实施例,但凡是未脱离本发明技术方案的内容,依据本发明的技术实质对以上实施例所作的任何简单修改、等同变化与修饰,均仍属于本发明技术方案的范围内。
工业应用性
本发明通过信号撷取模块强化原始生物能量体产生的生物能量信号后并进行信号提取,通过信号处理模块接收提取原始生物能量信号并对信号进行滤波放大处理以产生输出能量信号,通过信号输出单元搭配磁性物质具可强化输出功能对生物能量载体输出能量信号,通过缩短原始生物能量体与信号接收单元的距离,并利用磁性物质对原始生物能量体进行增强激化,使所接收提取的原始生物能量信号强度因强化得以提高且噪声比例大幅降低,减低后端信号处理的技术复杂度及成本并提升生物能量信号的功效。

Claims (10)

  1. 一种生物能量信号撷取及转换装置,其特征在于,包含:
    一信号撷取模块,用以增强激化一原始生物能量体的生物能量信号,并撷取一原始生物能量信号;
    一信号处理模块,电连接该信号撷取模块,以接收该原始生物能量信号并对该原始生物能量信号进行滤波放大处理,产生一输出能量信号;以及
    一信号输出单元,电连接该信号处理模块,以接收该输出能量信号并对一生物能量载体输出该输出能量信号。
  2. 如权利要求1所述的生物能量信号撷取及转换装置,其特征在于,该信号撷取模块包含:
    一承载盒体;
    一信号接收单元,设置于该承载盒体内且接收该原始生物能量信号;
    一第一磁性单元,设置于该承载盒体内并对应该信号接收单元设置,且该第一磁性单元与该信号接收单元间有一容置空间;其中,
    该信号处理模块设置于该承载盒体内并电连接该信号接收单元。
  3. 如权利要求1所述的生物能量信号撷取及转换装置,其特征在于,该信号输出单元包含:
    一线圈,电连接该信号处理模块以接收该输出能量信号。
  4. 如权利要求2所述的生物能量信号撷取及转换装置,其特征在于,
    该承载盒体设置有一输出端子,该输出端子电连接该信号处理模块;
    该信号输出单元进一步包含:
    一管体,具有一载体容置空间,且该管体相对两端中的一端形成有一开口,另一端设置有一输入端子,该输入端子通过一电线电连接该处理模块的输出端子,该管体的开口连通该管体的载体容置空间;该线圈缠绕于该管体的周围,且电连接该输入端子。
  5. 如权利要求1所述的生物能量信号撷取及转换装置,其特征在于,该信号处理模块包含:
    一滤波单元,电连接该信号接收单元以接收该原始生物能量信号,并对该 原始生物能量信号进行一滤波处理,产生一滤波信号;
    一放大单元,电连接该滤波单元以接收该滤波信号,该放大单元对该信号进行一放大处理,产生该输出能量信号。
  6. 如权利要求4所述的生物能量信号撷取及转换装置,其特征在于,该信号输出单元进一步包含:
    一第二磁性单元,设置于该管体的载体容置空间中、该管体中或该管体外侧周围并贴近线圈。
  7. 如权利要求5所述的生物能量信号撷取及转换装置,其特征在于,该信号处理模块进一步包含:
    一电源供应单元,电连接该滤波电路及该放大单元,以产生电力提供至该滤波单元及该放大单元。
  8. 如权利要求1所述的生物能量信号撷取及转换装置,其特征在于,
    该原始生物能量体系正常或病态的生物、生物的衍生物所构成的能量体或该生物能量载体。
  9. 如权利要求8所述的生物能量信号撷取及转换装置,其特征在于,
    该生物的衍生物系正常或病态的生物的体液、分泌液、***物、表皮角质蛋白。
  10. 如权利要求1所述的生物能量信号撷取及转换装置,其特征在于,
    该生物能量载体为瓶装的液体、具结晶结构的固体或磁性物质。
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