TWI712432B - Bio-energy signal capture and conversion device - Google Patents

Abstract

A biological energy signal acquisition and conversion device, including a signal acquisition module. The signal acquisition module strengthens the biological energy signal generated by an original biological energy body and performs signal extraction. A signal processing module receives the extracted signal The original bio-energy signal is filtered and amplified to generate an output energy signal. A signal output unit with magnetic material can enhance the output function and output an energy signal to a bio-energy carrier; by shortening the original bio-energy body and the signal receiving unit It uses magnetic materials to enhance the original bio-energy body, so that the intensity of the received original bio-energy signal is enhanced and the noise ratio is greatly reduced, which reduces the technical complexity and cost of the back-end signal processing And enhance the effectiveness of bio-energy signals.

Description

Bio-energy signal capture and conversion device

A signal capture and conversion device, especially a biological energy signal capture and conversion device.

A bio-energy signal acquisition and conversion device is to capture and enhance the energy signal of a raw bio-energy body to be transmitted, and directly transmit it to the device to receive and convert the signal from the bio-energy carrier to be received, such as the one made by MedTronik, Germany MORA Super+ biological energy resonance electronic device. In 2013, Liu Lingling, Zheng Dunfang and others presented a journal paper "Effectiveness of MORA electronic homeopathic copies of remedies for allergic rhinitis: A short-term, randomized, placebo-controlled PILOT study" in European Journal of Integrative Medicine. A research report on the use of MORA Super+ bio-energy resonance electronic equipment to effectively treat allergic rhinitis is also proposed.

However, the energy signal of the original biological energy body to be transmitted is very low, so there are many unnecessary environmental noise signals when the signal is captured, and part of the circuit noise is also involved in the enhancement process, so the biological energy is to be received The energy signal received by the carrier is not only from the original biological energy to be transmitted, but also unrelated noise signals. The ratio of the noise signal is even larger than the original biological energy to be transmitted, so the biological energy to be received is greatly reduced. The carrier undertakes the effect of the bio-energy characteristic signal.

In order to solve the problem of irrelevant noise signal when capturing the signal, 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 characteristic signals. , Some even connect to the computer and communicate with software Number of auxiliary processing, resulting in the complexity of the technical structure, and greatly increased the cost. Therefore, the prior art bio-energy signal extraction and conversion device must be further improved.

In view of the poor design of the front-end signal capture process in the prior art bio-energy signal capture and conversion device, which leads to the complexity of the back-end signal processing method and the increase in cost, this invention provides a bio-energy signal capture and conversion device that includes a Signal acquisition module, a signal processing module and a signal output unit. The signal extraction module is used to enhance and intensify a biological energy signal generated by an original biological energy body, and to capture an enhanced and stimulated original biological energy signal. Primitive bio-energy bodies include organisms (all or part of tissues) and their derivatives (such as biological fluids, secretions, excreta, and normal or pathological biological derivatives, such as blood, sputum, nose, 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 capture module to receive the original biological energy signal and perform filtering and amplifying processing on the original biological 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 bioenergy carrier, and proposes a better conversion method to improve the carrier's efficiency of carrying the converted bioenergy signal.

The signal capture module can greatly reduce the noise and improve the signal capture method through better design, and then receive the enhanced and stimulated bio-energy signal, and make the original bio-energy signal captured by the signal capture module The ratio of mid-to-noise signals is greatly reduced, reducing the signal processing complexity of the back-end signal processing module, and further simplifies 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 to enhance the receiving efficiency of the bio-energy carrier and maximize the efficiency of the bio-energy carrier to convert the bio-energy signal.

10: Signal capture module

11: Carrying box

111: Base

110: accommodation space

1111: output terminal

112: upper cover

1121: Fitting groove

12: The first magnetic unit

13: Signal receiving unit

20: Signal processing module

21: Filter unit

22: Amplification unit

23: power supply unit

30: Signal output unit

31: Coil

32: Tube body

320: accommodation space

321: Input terminal

33: The second magnetic unit

40: liquid

Figure 1 is a three-dimensional schematic diagram of the external appearance of the creative bio-energy signal capture and conversion device.

Fig. 2 is a block diagram of the device for capturing and converting the creative bio-energy signal.

FIG. 3 is a schematic cross-sectional view of the carrying case of the creative bio-energy signal extraction and conversion device.

Fig. 4 is a three-dimensional schematic diagram of the external appearance of the carrying case of the creative bio-energy signal capture and conversion device.

FIG. 5 is a three-dimensional diagram of the appearance of the signal output unit of the creative bio-energy signal extraction and conversion device.

Fig. 6 is a three-dimensional schematic diagram of the application of this creative bio-energy signal capture and conversion device.

FIG. 7 is a block diagram of the second preferred embodiment of the device for capturing and converting the creative bio-energy signal.

Please refer to Figures 1 to 2. In view of the poor design of the front-end signal capture processing of the prior art bio-energy signal capture and conversion device, the back-end signal processing method is complicated and the cost is increased. The energy signal capture and conversion device includes a signal capture module 10, a signal processing module 20, and a signal output unit 30. The signal capture module 10 is used to capture a bio-energy signal generated by an original bio-energy body, and the signal-capture module 10 first performs an enhanced activation on the original bio-energy body, and then receives an enhanced activation The original biological energy 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.

Please also refer to FIG. 3. In a first preferred embodiment of the present creation, 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. Wherein, the first magnetic unit 12 is arranged on an inner surface of the upper cover 112, and 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 body. Of a primitive biological energy signal. When the upper cover 112 and the base 111 are pivoted and closed, there is an accommodation space 110 between the first magnetic unit 12 and the signal receiving unit 13. The signal processing module 20 is disposed in the inner space of the base 111 and is electrically connected to the signal receiving unit 13. The signal processing module 20 receives the original biological energy signal from the signal receiving unit 13, and performs a process on the original biological energy signal Filter and amplify 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.

When the upper cover 112 and the base 111 are closed, 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 Approaching the original bio-energy body at a similar short distance, using the physical characteristics of the magnetic field distance of the magnetic substance, and using the largest magnetic field formed by the short distance of the first magnetic unit 12 to excite the original bio-energy body to generate the largest bio-energy signal, The signal receiving unit 13 directly receives the enhanced and excited 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. In short, by shortening the distance between the signal receiving unit 13 and the original bio-energy body, and further using the first magnetic unit 12 to excite the original bio-energy body, the original bio-energy signal received by the signal receiving unit 13 is strengthened and improved. Intensity and greatly reduce the proportion of noise.

In addition, the original bioenergy 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 carrying box 11 knot The structure and the activation of the original biological energy by the first magnetic unit 12 greatly improve the signal quality received by the front-end signal receiving unit 13, thereby further reducing the technical difficulty and cost required for back-end signal processing. The original bio-energy body includes all or part of the tissues of the organism, or derivatives of the organism, such as the body fluids, secretions, excreta of the organism, and includes its normal or pathological biological derivatives, such as blood, sputum, nasal mucus, and urine , Or pus, etc.; normal, hoarded or infected-related pathological substances of epidermal keratin, such as hair, nails, dander, etc. constitute the energy body. The original bio-energy body may also be a bio-energy carrier. For example, the bio-energy carrier that has received the bio-energy signal in this creation can be processed by extracting the energy signal again, such as copying, adding, or filtering.

In a first preferred embodiment of the present invention, the signal output unit 30 includes a coil 31 electrically connected to the signal processing module 20 to receive the output energy signal and transmit the output energy signal. Preferably, the coil 31 is electrically connected to the signal processing module 20 provided in the inner space of the base 111 through a wire.

Please refer to FIGS. 4 and 5 together. Preferably, 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 accommodation 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 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. Please refer to FIG. 6, 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.

In another embodiment, the carrier accommodating space 320 of the tube body 32 may not contain a carrier. At this time, 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 carriers, this bio-energy carrier includes animals or humans.

Preferably, the signal receiving unit 13 is a metal plate, such as a metal plate made of gold, silver, or copper.

In more detail, 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, preferably fixed by bolts, pasted or fitted into the In the fitting groove 1121. Wherein, the signal receiving unit 13 is disposed corresponding to the insertion 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 insertion groove 1121. Therefore, when the upper cover 112 and the base 111 are closed, 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 signal The accommodating space 110 with a fixed height is formed between the receiving unit 13 and the first magnetic unit 12 for accommodating the biological energy body.

Please refer to FIG. 7, in a second preferred embodiment of this creation, the signal processing module 20 includes a filter unit 21 and an amplifying unit 22. The filter unit 21 is electrically connected to the signal receiving unit 13 to receive The original bio-energy signal will greatly attenuate and remove related noise that does not belong to the range of the bio-energy signal to be used, such as filtering low-frequency 50/60Hz AC power waves, high-frequency mobile phones or radio wave environmental noise, etc. Generate and output a filtered signal. The amplifying unit 22 is electrically connected to the filter unit 21 and receives the filter signal and performs an amplification 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.

Preferably, 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 power required by the filtering unit 21 and the amplifying unit 22. The power supply unit 23 is, for example, a battery.

In another embodiment, the signal processing module 20 includes a power conversion unit 24, which is electrically connected to the filter unit 21 and the amplifying unit 22, and is electrically connected to an external power source to convert the external power source and provide power to the filter The unit 21 and the amplifying unit 22.

Please refer to FIG. 5 again. In a third preferred embodiment of the present invention, the signal output unit 30 further includes a second magnetic unit 33, which can be disposed in the tube body 32 carrier container. Place the space 320 to enhance the performance of the coil 31. Depending on the type or structure of the biological energy carrier, 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 tube body and close to the coil. , And other locations around or inside the bioenergy carrier 40.

The above is only the preferred embodiment of this creation, and does not limit this creation in any form. Although this creation has been disclosed as above in preferred embodiments, it is not intended to limit this creation. Anyone familiar with the professional technology Personnel, without departing from the scope of this creative technical solution, when the technical content disclosed above can be used to make some changes or modification into equivalent embodiments with equivalent changes, but any content that does not deviate from this creative technical solution is based on this creation Any simple modifications, equivalent changes and modifications made to the above embodiments of the technical essence of the above still fall within the scope of the technical solution of this creation.

10‧‧‧Signal Extraction Module

11‧‧‧Carrier Box

111‧‧‧Base

112‧‧‧Top cover

1121‧‧‧Interlocking groove

12‧‧‧The first magnetic unit

13‧‧‧Signal receiving unit

30‧‧‧Signal output unit

31‧‧‧Inductance coil

32‧‧‧Container

321‧‧‧Input terminal

Claims (8)

A biological energy signal capturing and converting device, comprising: a signal capturing module, including a first magnetic unit, for enhancing a biological energy signal that excites an original biological energy body, and capturing an original biological energy signal; The signal processing module includes a filter unit and an amplifying unit, and is electrically connected to the signal capture 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; a signal The output unit includes a coil that is electrically connected to the signal processing module to receive the output energy signal and output the output energy signal to a biological energy carrier; and the biological energy system of the original biological energy system is normal or diseased organisms, biological derivatives The energy body or the biological energy carrier constituted by objects. The biological energy signal extraction and conversion device according to claim 1, wherein the signal extraction module further comprises: a carrying box; and a signal receiving unit, which is arranged in the carrying box and receives the original biological energy Signal; wherein the first magnetic unit is arranged in the carrying box and is arranged in response to the signal receiving unit, and there is an accommodation space between the first magnetic unit and the signal receiving unit; wherein, the signal processing module is arranged in the The carrier box body is electrically connected to the signal receiving unit. The biological energy signal extraction and conversion device according to claim 2, wherein the carrying box body is provided with an output terminal, and the output terminal is electrically connected to the signal processing module; the signal output unit further includes: a tube body having A carrier accommodating space, and one of the opposite ends of the tube body is formed with an opening, and the other end is provided with an input terminal which is electrically connected to the processing module through a wire An output terminal, the opening of the tube body communicates with the carrier accommodating space of the tube body; the coil is wound around the tube body and is electrically connected to the input terminal. The biological energy signal extraction and conversion device according to claim 2, wherein the filter unit is electrically connected to the signal receiving unit to receive the original biological energy signal, and performs a filtering process on the original biological energy signal to generate a filtered signal The amplifying unit is electrically connected to the filter unit to receive the filter signal, and the amplifying unit performs an amplifying process on the signal to generate the output energy signal. The biological energy signal extraction and conversion device according to claim 3, wherein the signal output unit further includes: a second magnetic unit disposed in the carrier accommodating space of the tube, in the tube, or in the tube Around the outside of the body and close to the coil. The biological energy signal acquisition and conversion device according to claim 4, wherein the signal processing module further includes: a power supply unit electrically connected to the filter circuit and the amplifying unit to generate power to be supplied to the filter unit and The amplification unit. The biological energy signal extraction and conversion device according to claim 1, wherein the biological derivatives are normal or pathological biological fluids, secretions, excreta, and epidermal keratin. The biological energy signal extraction and conversion device according to claim 1, wherein the biological energy carrier is a bottled liquid, a solid with a crystalline structure, or a magnetic substance.

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