CN105675116A - Biology own infrasonic wave detection system and detection method thereof - Google Patents

Abstract

The present invention discloses a biology own infrasonic wave detection system and a biology own infrasonic wave detection method. The biology own infrasonic wave detection system comprises a biology own infrasonic wave detection cabin, a vacuum cabin, a biological life monitoring and life support system and a signal detection and collection processing system, wherein the vacuum cabin is used to guarantee that the biology own infrasonic wave detection cabin is located in a vacuum environment, and the vacuum environment of the biology own infrasonic wave detection cabin is used to block the introduction of an external infrasonic wave; the biological life monitoring and life support system is used to guarantee that the biology in the biology own infrasonic wave detection cabin is located in a living state, and the signal detection and collection processing system is used to carry out the infrasonic wave detection and collection on the biology in the biology own infrasonic wave detection cabin, and carry out the signal processing.

Description

Biological self infrasonic wave detection system and detection method thereof

Technical field

The present invention relates to a kind of self infrasonic wave detection apparatus biological, system and method thereof, particularly relate to biology self infrasonic wave detection cabin and the detection method thereof of a kind of vacuum chamber isolation environment noise.

Background technology

The mechanical wave that human auditory's organ sound is felt can be caused to be called sound wave, and the frequency of sound wave scope that the mankind can feel is within 20～200 hertz (Hz), and the sound wave outside this scope, the organon auditus of people is all not felt by. The frequency sound wave more than 200Hz, is called ultrasound wave, and the frequency sound wave lower than 20Hz is considered as infrasonic wave (being called for short infrasonic sound or infrasound), and infrasonic frequency is generally 0.0001Hz～20Hz. Infrasonic wave is widely present in nature, production environment, working environment and organism, as: storm at sea, volcano eruption, big aerolite land, tsunami, lightning flashes and thunder rumbles, wave hits whirlpool in bank, water, aerial turbulent flow, tornado, magnetic storm, aurora and nuclear explosion, missile flight, Canon launching, steamer navigation, automobile emergency are speeded, high building and bridge rock, be even all likely to infrasonic generation as aerator, blender, megaphone etc. Owing to partes corporis humani position all exists trickle and rhythmical pulsation, its frequency is generally 2～16Hz, and if internal organs are 4～6Hz, head is 8～12Hz etc., and this is just consistent with infrasonic frequency range. If the frequency of vibration of external undersonic frequency and human body viscera is similar or identical, " resonance " of human body viscera will be caused, so that people produces dizziness, agitation, tinnitus, nauseating etc. series of symptoms. Particularly when the intrinsic frequency of vibration such as the abdominal cavity of people, thoracic cavity are consistent with external undersonic frequency, it is more easy to the resonance causing human body viscera, makes human body viscera impaired and get killed. The each organ of human body can be caused strong resonance just because of infrasonic wave, thus causing great injury.

At present, infrasonic detection has been used for detection storm at sea, volcano eruption, big aerolite land, tsunami, lightning flashes and thunder rumbles, wave hits whirlpool in bank, water, aerial turbulent flow, tornado, magnetic storm, aurora and nuclear explosion, missile flight, Canon launching, steamer navigation, automobile emergency are speeded, high building and bridge rock, and is also used for the detection of pipeline inspection.

But, self infrasonic detection biological is still in virgin field, but without being seen in report.Inventor concentrates on studies through for many years, it is proposed that the devices and methods therefor of self infrasonic wave of a kind of biology detection, proposes biology self infrasonic wave detection cabin and the method thereof of a kind of vacuum chamber isolation environment noise simultaneously.

Summary of the invention

For these reasons, the present inventor concentrates on studies through for many years, propose a kind of biological self infrasonic wave detection system, including: biological self infrasonic wave detection cabin, vacuum chamber, biological life monitoring and life-support system and signal detection and collection processing system implementing, wherein said vacuum chamber is used for ensureing that self infrasonic wave of described biology detection cabin is in vacuum environment, it is incoming that the vacuum environment in self infrasonic wave of described biology detection cabin is used for blocking extraneous infrasonic wave, the monitoring of described biological life and life-support system are for ensureing that the biology in self infrasonic wave of described biology detection cabin is in animation, described signal detection carries out infrasonic wave signal detection and collection with collection processing system implementing for the described biology that self infrasonic wave of described biology is detected in cabin, and carry out signal processing.

Self infrasonic wave of biology according to present invention detection system, self infrasonic wave of described biology detects cabin and described vacuum chamber, the monitoring of described biological life and life-support system and described signal detection and collection processing system implementing connection.

Self infrasonic wave of biology according to present invention detection system, self infrasonic wave of described biology detection cabin is built in described vacuum chamber.

Self infrasonic wave of biology according to present invention detection system, described vacuum chamber is made up of vacuum chamber nacelle and lid.

Self infrasonic wave of biology according to present invention detection system, described lid includes biological life monitoring and life-support system valve, signal detection and collection processing system implementing valve.

Self infrasonic wave of biology according to present invention detection system, self infrasonic wave of described biology detection cabin is made up of biological self infrasonic wave detection cabin cavity and biological self infrasonic wave detection hatchcover body.

Self infrasonic wave of biology according to present invention detection system, self infrasonic wave of described biology detection hatchcover body includes biological life monitoring valve, signal detection system valve.

Self infrasonic wave of biology according to present invention detection system, described biological life is monitored and life-support system is monitored by described biological life and life-support system valve monitors valve coupling, described signal detection and collection processing system implementing by described signal detection and collection processing system implementing valve and described signal detection system valve coupling with described biological life.

Self infrasonic wave of biology according to present invention detection system, the bottom of described vacuum chamber is provided with the first Magnet, the sidewall of described vacuum chamber is provided with multiple second Magnet, the bottom in self infrasonic wave of described biology detection cabin is provided with the 3rd Magnet, being provided with multiple 4th Magnet on the lateral wall in self infrasonic wave of described biology detection cabin, described first Magnet and described 3rd Magnet are oppositely arranged, its opposite polarity, described second Magnet and described 4th Magnet are oppositely arranged, its opposite polarity.

Self infrasonic wave of biology according to present invention detection system, described first Magnet and described second Magnet are N-type, and described 3rd Magnet and described 4th Magnet are S type. Biological self infrasonic wave detection system as claimed in claim 9, it is characterised in that described first Magnet and described second Magnet are S type, and described 3rd Magnet and described 4th Magnet are N-type.

Self infrasonic wave of biology according to present invention detection system, the bottom of described vacuum chamber is provided with first coil, the sidewall of described vacuum chamber is provided with multiple second coil, the bottom in self infrasonic wave of described biology detection cabin is provided with tertiary coil, the lateral wall in self infrasonic wave of described biology detection cabin is provided with multiple 4th coil, described first coil and described tertiary coil are oppositely arranged, the magnetic polarity of its generation is contrary, described second coil and described 4th coil are oppositely arranged, and the magnetic polarity of its generation is contrary.

Self infrasonic wave of biology according to present invention detection system, the vacuum in described vacuum chamber is below 100Pa.

Self infrasonic wave of biology according to present invention detection system, the vacuum in described vacuum chamber is 1Pa, 10Pa, 30Pa, 50Pa, 80Pa, 100Pa.

Self infrasonic wave of biology according to present invention detection system, described vacuum chamber and self infrasonic wave of described biology detection cabin are column type, cube, cuboid or Elliptic Cylinder structure.

The present invention also provides for a kind of biological self infrasonic wave detection system, including: biological self infrasonic wave detection cabin, vacuum chamber, self infrasonic wave of described biology detection cabin is built in described vacuum chamber, the bottom in self infrasonic wave of wherein said biology detection cabin is provided with the first Magnet, the sidewall of described vacuum chamber is provided with multiple second Magnet, the bottom in self infrasonic wave of described biology detection cabin is provided with the 3rd Magnet, the lateral wall in self infrasonic wave of described biology detection cabin is provided with multiple 4th Magnet, described first Magnet and described 3rd Magnet are oppositely arranged, its opposite polarity, described second Magnet and described 4th Magnet are oppositely arranged, its opposite polarity.

Self infrasonic wave of biology according to present invention detection system, described vacuum chamber is made up of vacuum chamber nacelle and vacuum chamber lid.

Self infrasonic wave of biology according to present invention detection system, described vacuum chamber lid includes biological life monitoring and life-support system valve, signal detection and collection processing system implementing valve.

Self infrasonic wave of biology according to present invention detection system, self infrasonic wave of described biology detection cabin is made up of biological self infrasonic wave detection cabin cavity and biological self infrasonic wave detection hatchcover body.

Self infrasonic wave of biology according to present invention detection system, self infrasonic wave of described biology detection hatchcover body includes biological life monitoring valve, signal detection system valve.

Self infrasonic wave of biology according to present invention detection system, described biological life is monitored and life-support system is monitored by described biological life and life-support system valve monitors valve coupling, described signal detection and collection processing system implementing by described signal detection and collection processing system implementing valve and described signal detection system valve coupling with described biological life.

Self infrasonic wave of biology according to present invention detection system, it is characterised in that described first Magnet and described second Magnet are N-type, and described 3rd Magnet and described 4th Magnet are S type.

Self infrasonic wave of biology according to present invention detection system, described first Magnet and described second Magnet are S type, and described 3rd Magnet and described 4th Magnet are N-type.

Self infrasonic wave of biology according to present invention detection system, the bottom of described vacuum chamber is provided with first coil, the sidewall of described vacuum chamber is provided with multiple second coil, the bottom in self infrasonic wave of described biology detection cabin is provided with tertiary coil, the lateral wall in self infrasonic wave of described biology detection cabin is provided with multiple 4th coil, described first coil and described tertiary coil are oppositely arranged, the magnetic polarity of its generation is contrary, described second coil and described 4th coil are oppositely arranged, and the magnetic polarity of its generation is contrary.

Self infrasonic wave of biology according to present invention detection system, the vacuum in described vacuum chamber is below 100Pa.

Self infrasonic wave of biology according to present invention detection system, the vacuum in described vacuum chamber is 1Pa, 10Pa, 30Pa, 50Pa, 80Pa, 100Pa.

The present invention also provides for a kind of self infrasonic wave detection method biological, described method comprises the steps: step S1, biological self infrasonic wave detection system is provided, self infrasonic wave of described biology detection system includes: biological self infrasonic wave detection cabin, vacuum chamber, biological life monitoring and life-support system and signal detection and collection processing system implementing, wherein said vacuum chamber is used for ensureing that self infrasonic wave of described biology detection cabin is in vacuum environment, it is incoming that the vacuum environment in self infrasonic wave of described biology detection cabin is used for blocking extraneous infrasonic wave, the monitoring of described biological life and life-support system are for ensureing that the biology in self infrasonic wave of described biology detection cabin is in animation, described signal detection carries out infrasonic wave signal detection and collection with collection processing system implementing for the described biology that self infrasonic wave of described biology is detected in cabin, and carry out signal processing,Step S2, detects in biology self the infrasonic wave detection cabin in cabin at self infrasonic wave of described biology and places biology; Step S3, described signal detection and described biogenic infrasonic wave in described biology self the infrasonic wave detection cabin in collection processing system implementing detection self infrasonic wave of described biology detection cabin; Step S4, described signal detection and collection processing system implementing collect described biogenic infrasonic wave signal in described biology self the infrasonic wave detection cabin in described biology self the infrasonic wave detection cabin detected, the analyzing and processing of places of going forward side by side acoustic signals, it is thus achieved that described biogenic infrasonic wave signal collection of illustrative plates.

Biology according to the present invention self infrasonic wave detection method, described method further includes steps of described signal detection and collection processing system implementing analysis and arranges described biogenic infrasonic wave signal collection of illustrative plates, the relatively difference of described biogenic infrasonic wave signal collection of illustrative plates and benchmark infrasonic wave collection of illustrative plates, judge whether described biology or biologic-organ produce pathological changes, biological as described in finding or as described in biologic-organ generation pathological changes, then make corresponding pathological changes processing method.

Biology according to the present invention self infrasonic wave detection method, self infrasonic wave of described biology detection system is self infrasonic wave of above-mentioned biology detection system.

The present invention also provides for a kind of self infrasonic wave detection method biological, described method comprises the steps: step S1, biological self infrasonic wave detection system is provided, self infrasonic wave of described biology detection system includes: biological self infrasonic wave detection cabin, vacuum chamber, self infrasonic wave of described biology detection cabin is built in described vacuum chamber, the bottom in self infrasonic wave of wherein said biology detection cabin is provided with the first Magnet, the sidewall of described vacuum chamber is provided with multiple second Magnet, the bottom in self infrasonic wave of described biology detection cabin is provided with the 3rd Magnet, the lateral wall in self infrasonic wave of described biology detection cabin is provided with multiple 4th Magnet, described first Magnet and described 3rd Magnet are oppositely arranged, its opposite polarity, described second Magnet and described 4th Magnet are oppositely arranged, its opposite polarity, step S2, detects in biology self the infrasonic wave detection cabin in cabin at self infrasonic wave of described biology and places biology, step S3, described signal detection and described biogenic infrasonic wave in described biology self the infrasonic wave detection cabin in collection processing system implementing detection self infrasonic wave of described biology detection cabin, step S4, described signal detection and collection processing system implementing collect described biogenic infrasonic wave signal in described biology self the infrasonic wave detection cabin in described biology self the infrasonic wave detection cabin detected, the analyzing and processing of places of going forward side by side acoustic signals, it is thus achieved that described biogenic infrasonic wave signal collection of illustrative plates.

Biology according to the present invention self infrasonic wave detection method, described method further includes steps of described signal detection and collection processing system implementing analysis and arranges described biogenic infrasonic wave signal collection of illustrative plates, the relatively difference of described biogenic infrasonic wave signal collection of illustrative plates and benchmark infrasonic wave collection of illustrative plates, judge whether described biology or biologic-organ produce pathological changes, biological as described in finding or as described in biologic-organ generation pathological changes, then make corresponding pathological changes processing method.

Biology according to the present invention self infrasonic wave detection method, self infrasonic wave of described biology detection system is self infrasonic wave of above-mentioned biology detection system.

The present invention also provides for a kind of self infrasonic wave detection apparatus biological, including: biological self infrasonic wave detection cabin, vacuum chamber, wherein said vacuum chamber is used for ensureing that self infrasonic wave of described biology detection cabin is in vacuum environment, and it is incoming that the vacuum environment in self infrasonic wave of described biology detection cabin is used for blocking extraneous infrasonic wave.

Self infrasonic wave detection apparatus of biology according to the present invention, self infrasonic wave of described biology detection cabin is built in described vacuum chamber.

Self infrasonic wave detection apparatus of biology according to the present invention, described vacuum chamber is made up of vacuum chamber nacelle and vacuum chamber lid.

Self infrasonic wave detection apparatus of biology according to the present invention, described vacuum chamber lid includes biological life monitoring and life-support system valve, signal detection and collection processing system implementing valve.

Self infrasonic wave detection apparatus of biology according to the present invention, self infrasonic wave of described biology detection cabin is made up of biological self infrasonic wave detection cabin cavity and biological self infrasonic wave detection hatchcover body.

Self infrasonic wave detection apparatus of biology according to the present invention, self infrasonic wave of described biology detection hatchcover body includes biological life monitoring valve, signal detection system valve.

Self infrasonic wave detection apparatus of biology according to the present invention, the bottom of described vacuum chamber is provided with the first Magnet, the sidewall of described vacuum chamber is provided with multiple second Magnet, the bottom in self infrasonic wave of described biology detection cabin is provided with the 3rd Magnet, being provided with multiple 4th Magnet on the lateral wall in self infrasonic wave of described biology detection cabin, described first Magnet and described 3rd Magnet are oppositely arranged, its opposite polarity, described second Magnet and described 4th Magnet are oppositely arranged, its opposite polarity.

Self infrasonic wave detection apparatus of biology according to the present invention, described first Magnet and described second Magnet are N-type, and described 3rd Magnet and described 4th Magnet are S type.

Self infrasonic wave detection apparatus of biology according to the present invention, described first Magnet and described second Magnet are S type, and described 3rd Magnet and described 4th Magnet are N-type.

Self infrasonic wave detection apparatus of biology according to the present invention, the bottom of described vacuum chamber is provided with first coil, the sidewall of described vacuum chamber is provided with multiple second coil, the bottom in self infrasonic wave of described biology detection cabin is provided with tertiary coil, the lateral wall in self infrasonic wave of described biology detection cabin is provided with multiple 4th coil, described first coil and described tertiary coil are oppositely arranged, the magnetic polarity of its generation is contrary, described second coil and described 4th coil are oppositely arranged, and the magnetic polarity of its generation is contrary.

Self infrasonic wave detection apparatus of biology according to the present invention, the vacuum in described vacuum chamber is below 100Pa.

Self infrasonic wave detection apparatus of biology according to the present invention, the vacuum in described vacuum chamber is 1Pa, 10Pa, 30Pa, 50Pa, 80Pa, 100Pa.

Self infrasonic wave detection apparatus of biology according to the present invention, described vacuum chamber and self infrasonic wave of described biology detection cabin are column type, cube, cuboid or Elliptic Cylinder structure.

The present invention also provides for a kind of self infrasonic wave detection method biological, described method comprises the steps: step S1, self infrasonic wave detection apparatus biological is provided, self infrasonic wave detection apparatus of described biology includes: biological self infrasonic wave detection cabin, vacuum chamber, wherein said vacuum chamber is used for ensureing that self infrasonic wave of described biology detection cabin is in vacuum environment, and it is incoming that the vacuum environment in self infrasonic wave of described biology detection cabin is used for blocking extraneous infrasonic wave; Step S2, detects at self infrasonic wave of described biology and places biology in cabin; Step S3, detects described biogenic infrasonic wave in self infrasonic wave of described biology detection cabin; Step S4, collects described biogenic infrasonic wave signal in described biology self the infrasonic wave detection cabin in described biology self the infrasonic wave detection cabin detected, the analyzing and processing of places of going forward side by side acoustic signals, it is thus achieved that described biogenic infrasonic wave signal collection of illustrative plates.

Biology according to the present invention self infrasonic wave detection method, described method further includes steps of analysis and arranges described biogenic infrasonic wave signal collection of illustrative plates, the relatively difference of described biogenic infrasonic wave signal collection of illustrative plates and benchmark infrasonic wave collection of illustrative plates, judge whether described biology or biologic-organ produce pathological changes, biological as described in finding or as described in biologic-organ generation pathological changes, then make corresponding pathological changes processing method.

Biology according to the present invention self infrasonic wave detection method, self infrasonic wave detection apparatus of described biology is self infrasonic wave detection apparatus of above-mentioned biology.

Self infrasonic wave of biology according to present invention detection system and detection method thereof, it becomes possible to improve biological infrasonic signal to noise ratio, reduce the acquisition time of biological specimen, improve effective, the high-fidelity collection of biological infrasound signals.

Self infrasonic wave of biology according to present invention detection system and detection method thereof, the device of its biological self infrasonic wave detection provides a biological life monitoring and life-support system, to meet and to ensure the needs of animal welfare in self infrasonic wave detection process biological.

Self infrasonic wave of biology according to present invention detection system and detection method thereof, the device of its biological self infrasonic wave detection provides a high-efficiency vacuum cabin, to realize isolation environment noise and to ensure the detection of biological small-signal, it is possible to obtain biological infrasonic wave effective, high-fidelity

Self infrasonic wave of biology according to present invention detection system and detection method thereof, it becomes possible to accurately detect out the infrasonic wave of biology, biological each organ, thus detecting the reason of biology, biological each organ generation pathological changes.

Biology self infrasonic wave according to the present invention is utilized to detect system and detection method thereof, it becomes possible to the generation biology of pathological changes, biological each organ are carried out infrasonic wave inductive treatment, and fixed point carries out the treatment of pathological changes, removes thus realizing pathological changes efficiently, rapidly

Self infrasonic wave of biology according to present invention detection system and detection method thereof, it is achieved that Automatic Control, significantly reduce detection and hand labor intensity in monitoring process, decrease expense.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment will be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 illustrates the schematic diagram of self infrasonic wave of the biology according to present invention detection system.

Fig. 2 illustrates the schematic diagram in biology self the infrasonic wave detection cabin of first embodiment.

Fig. 3 illustrates the schematic diagram in biology self the infrasonic wave detection cabin of the second embodiment.

Fig. 4 illustrates the flow chart of the biology according to the present invention self infrasonic wave detection method.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete description, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments. Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

In an embodiment, term " system ", " device " etc. are merely representative of the statement of its concrete structure, it is possible to for " parts ", " assembly " or " module ".

In an embodiment, biology refers to all lived objects, includes but not limited to mouse, rabbit, cat, Canis familiaris L., monkey, people etc. Biological self infrasonic wave detection includes but not limited to the biological infrasonic wave detection self produced such as mouse, rabbit, cat, Canis familiaris L., monkey, people, including but not limited to the infrasonic wave detection that each biologic-organ self produces, biologic-organ is brain, heart, lung, liver etc. such as.

Embodiment

Fig. 1 illustrates the schematic diagram of self infrasonic wave of the biology according to present invention detection system. Include as it is shown in figure 1, detect system according to biology self infrasonic wave of the present invention: self infrasonic wave detection apparatus 1 biological, vacuum chamber 2, biological life monitoring and life-support system 300 and signal detection and collection processing system implementing 400. Vacuum chamber 2 makes biology self the infrasonic wave detection cabin of self infrasonic wave detection apparatus 1 biological be in vacuum state, and its vacuum environment can block in external sound wave or self infrasonic wave detection apparatus 1 of the incoming biology of infrasonic wave biological self infrasonic wave detection cabin. The biology that biological life monitoring and life-support system 300 ensure in self infrasonic wave detection apparatus 1 biological is in animation. Signal detection and collection processing system implementing 400 are for carrying out infrasonic wave signal detection and collection to the biology in biology self the infrasonic wave detection cabin in self infrasonic wave detection apparatus 1 biological, and carry out signal processing.

Self infrasonic wave of biology according to present invention detection system, self infrasonic wave detection apparatus 1 biological and vacuum chamber 2, biological life monitoring and life-support system 300 and signal detection and collection processing system implementing 400 connect. Vacuum chamber 2 is for carrying out evacuation in self infrasonic wave detection apparatus 1 biological. Preferably, vacuum chamber is produced by vacuum pump and maintains vacuum state.

First embodiment

First the present embodiment illustrates the concrete structure of biology self infrasonic wave detection apparatus 1 of the present invention. Fig. 2 illustrates the schematic diagram of biology self infrasonic wave detection apparatus 1 of the isolation environment noise of first embodiment. As in figure 2 it is shown, self infrasonic wave detection apparatus 1 a kind of biological of the present invention includes: biological self infrasonic wave detection cabin 3, vacuum chamber 2. Vacuum chamber 2 is made up of vacuum chamber nacelle 21 and vacuum chamber lid 22. Lid 22 includes biological life monitoring and life-support system valve 23, signal detection and collection processing system implementing valve 24. Biological self infrasonic wave detection cabin 3 is made up of biological self infrasonic wave detection cabin cavity 31 and biological self infrasonic wave detection hatchcover body 32. Biological self infrasonic wave detection hatchcover body 32 includes biological life monitoring valve 33, signal detection system valve 34. Biological self infrasonic wave detection cabin 3 is built in vacuum chamber nacelle 21. Biological life is monitored and life-support system 300 (not shown) is monitored by biological life and life-support system valve 23 connects with biological life monitoring valve 33, and signal detection is connect with signal detection system valve 34 by signal detection and collection processing system implementing valve 24 with collection processing system implementing 400 (not shown). Environmental noise shielding system is greatly improved envelope eapsulotomy and collection. Preferably, biology self infrasonic wave detection cabin 3 is isolated from the outside by vacuum chamber nacelle 21 by vacuum environment. Preferably, biological life monitoring and life-support system 300 guarantee to be in atmospheric pressure state in biological self infrasonic wave detection cabin 3, to meet and to ensure the needs of animal welfare in self infrasonic wave detection process biological. In this embodiment, biological specimen is positioned in biological self infrasonic wave detection cabin 3. Biological self infrasonic wave detection cabin 3 is placed in vacuum chamber nacelle 21, is monitored by biological life and life-support system valve 23 monitors valve 33 with biological life, to meet and to ensure biological biosystem.

Biological self infrasonic wave detection cabin 3 is built in vacuum chamber nacelle 21. It is vacuum state in vacuum chamber nacelle 21. Preferably, the vacuum in vacuum chamber nacelle 21 is below 100Pa.Preferably, the vacuum in vacuum chamber nacelle 21 is below 1-100Pa. Preferably, the vacuum in vacuum chamber nacelle 21 is 1Pa, 10Pa, 30Pa, 50Pa, 80Pa, 100Pa.

Preferably, vacuum chamber nacelle 21 and biological self infrasonic wave detection cabin 3 can be cylindrical structure, it is possible to for cube, cuboid or Elliptic Cylinder structure, but are not limited to said structure.

The device 1 of self infrasonic wave of the biology of this enforcement detection can improve biological infrasonic signal to noise ratio, reduces the acquisition time of biological specimen, improve effective, the high-fidelity collection of biological infrasound signals. The device 1 of self infrasonic wave of the biology of the present embodiment detection can also realize following beneficial effect: the device 1 of biological self infrasonic wave detection provides a biological life monitoring and life-support system, to meet and to ensure the needs of animal welfare in self infrasonic wave detection process biological; Next, the device 1 of biological self infrasonic wave detection provides an efficient cofferdam, to realize isolation environment noise and to ensure the detection of biological small-signal, it is possible to obtain biological infrasonic wave effective, high-fidelity; Again, by the device 1 of the biology of the present embodiment self infrasonic wave detection, it becomes possible to accurately detect out the infrasonic wave of biology, biological each organ, thus detecting the reason of biology, biological each organ generation pathological changes; 4th, utilize the device 1 that biology self infrasonic wave of the present embodiment detects, it becomes possible to the generation biology of pathological changes, biological each organ are carried out infrasonic wave inductive treatment, and fixed point carries out the treatment of pathological changes, removes thus realizing pathological changes efficiently, rapidly; 5th, the device 1 of self infrasonic wave of the biology of the present embodiment detection achieves Automatic Control, significantly reduces detection and hand labor intensity in monitoring process, decreases expense.

Second embodiment

This example demonstrates that the another kind of concrete structure of the biology of the present invention self infrasonic wave detection apparatus 1. Fig. 3 illustrates the schematic diagram of biology self infrasonic wave detection apparatus 1 of the isolation environment noise of the second embodiment.

As it is shown on figure 3, the biology of the present embodiment self infrasonic wave detection apparatus 1 includes: biological self infrasonic wave detection cabin 3, vacuum chamber 2. Vacuum chamber 2 is made up of vacuum chamber nacelle 21 and lid 22. Lid 22 includes biological life monitoring and life-support system valve 23, signal detection and collection processing system implementing valve 24. Biological self infrasonic wave detection cabin 3 is made up of biological self infrasonic wave detection cabin cavity 31 and biological self infrasonic wave detection hatchcover body 32. Biological self infrasonic wave detection hatchcover body 32 includes biological life monitoring valve 33, signal detection system valve 34. Biological self infrasonic wave detection cabin 3 is built in vacuum chamber nacelle 21. Biological life is monitored and life-support system 2 (not shown) is monitored by biological life and life-support system valve 23 connects with biological life monitoring valve 33, and signal detection is connect with signal detection system valve 34 by signal detection and collection processing system implementing valve 24 with collection processing system implementing 400 (not shown). Environmental noise shielding system is greatly improved envelope eapsulotomy and collection. Preferably, biology self infrasonic wave detection cabin 3 is isolated from the outside by vacuum chamber nacelle 21 by vacuum environment. Preferably, biological life monitoring and life-support system 300 guarantee to be in atmospheric pressure state in biological self infrasonic wave detection cabin 3, to meet and to ensure the needs of animal welfare in self infrasonic wave detection process biological. .

In this embodiment, the bottom of vacuum chamber nacelle 21 is provided with Magnet 201, and the sidewall of vacuum chamber nacelle 21 is provided with Magnet 202,203.The bottom in biological self infrasonic wave detection cabin 3 is provided with Magnet 301, and the lateral wall in biological self infrasonic wave detection cabin 3 is provided with Magnet 302,303. Magnet 201 and Magnet 301 are oppositely arranged, its opposite polarity, and when Magnet 201 is N-type, Magnet 301 is just for S type; Otherwise, when Magnet 201 is S type, Magnet 301 is just for N-type. Preferably, Magnet 201 and the mutual magnetic force of Magnet 301 are enough to make biological self infrasonic wave detection cabin 3 isolate with vacuum chamber nacelle 21. In the present embodiment, the Magnet 302,303 arranged on the Magnet 202,203 arranged on the sidewall of vacuum chamber nacelle 21 and the lateral wall in biological self infrasonic wave detection cabin 3 is oppositely arranged, its opposite polarity, when Magnet 202,203 is N-type, Magnet 302,302 is just for S type; Otherwise, when Magnet 202,203 is S type, Magnet 302,302 is just for N-type. Preferably, the mutual magnetic force of Magnet 202,203 and Magnet 302,303 is enough to make biological self infrasonic wave detection cabin 3 isolate with vacuum chamber nacelle 21. Preferably, the magnetic force that useful coil produces replaces the magnetic force that Magnet produces, it is to say, electric power coil can be arranged in the relevant position arranging Magnet, as long as the magnetic force that coil produces is capable of biological self infrasonic wave detection cabin 3 and isolates with vacuum chamber nacelle 21. In the present embodiment, biological self infrasonic wave detection cabin 3 is made to isolate with vacuum chamber nacelle 21 by magnetic force, it is under the environment of vacuum in vacuum chamber nacelle 21, just can blocking infrasonic wave self infrasonic wave of incoming biology detection cabin 3 in the external world, the device 1 of biology self the infrasonic wave detection being also considerably improved the present embodiment detects biological infrasonic precision. Meanwhile, eliminate environment noise in detection process, reduce analysis difficulty and the time of infrasonic wave signal.

In this embodiment, biological specimen is positioned in biological self infrasonic wave detection cabin 3. Biological self infrasonic wave detection cabin 3 is placed in vacuum chamber nacelle 21, is monitored by biological life and life-support system valve 23 monitors valve 33 with biological life, to meet and to ensure biological biosystem.

It is vacuum state in vacuum chamber nacelle 21. Preferably, the vacuum in vacuum chamber nacelle 21 is below 100Pa. Preferably, the vacuum in vacuum chamber nacelle 21 is below 1-100Pa. Preferably, the vacuum in vacuum chamber nacelle 21 is 1Pa, 10Pa, 30Pa, 50Pa, 80Pa, 100Pa.

Biological self infrasonic wave detection cabin 3 is built in vacuum chamber nacelle 21.

Preferably, vacuum chamber nacelle 21 and biological self infrasonic wave detection cabin 3 can be cylindrical structure, it is possible to for cube, cuboid or Elliptic Cylinder structure, but are not limited to said structure.

The device 1 of self infrasonic wave of the biology of this enforcement detection can improve biological infrasonic signal to noise ratio, reduces the acquisition time of biological specimen, improve effective, the high-fidelity collection of biological infrasound signals. The device 1 of self infrasonic wave of the biology of the present embodiment detection can also realize following beneficial effect: the device 1 of biological self infrasonic wave detection provides a biological life monitoring and life-support system, to meet and to ensure the needs of animal welfare in self infrasonic wave detection process biological; Next, the device 1 of biological self infrasonic wave detection provides an efficient cofferdam, to realize isolation environment noise and to ensure the detection of biological small-signal, it is possible to obtain biological infrasonic wave effective, high-fidelity; Again, by the device 1 of the biology of the present embodiment self infrasonic wave detection, it becomes possible to accurately detect out the infrasonic wave of biology, biological each organ, thus detecting the reason of biology, biological each organ generation pathological changes;4th, utilize the device 1 that biology self infrasonic wave of the present embodiment detects, it becomes possible to the generation biology of pathological changes, biological each organ are carried out infrasonic wave inductive treatment, and fixed point carries out the treatment of pathological changes, removes thus realizing pathological changes efficiently, rapidly; 5th, the device 1 of self infrasonic wave of the biology of the present embodiment detection achieves Automatic Control, significantly reduces detection and hand labor intensity in monitoring process, decreases expense.

3rd embodiment

Fig. 4 illustrates the flow chart of the biology according to the present invention self infrasonic wave detection method. As shown in Figure 4, comprise the steps: according to the biology of the present invention self infrasonic wave detection method

Step S1, there is provided and detect system according to biology self infrasonic wave of the present invention, detect system according to self infrasonic wave of the biology of the present invention and include: self infrasonic wave detection apparatus 1 biological, vacuum pump 2, biological life monitoring and life-support system 300 and signal detection and collection processing system implementing 400. Vacuum pump 2 makes biology self the infrasonic wave detection cabin in self infrasonic wave detection apparatus 1 biological be in vacuum state, and its vacuum environment can block in external sound wave or infrasonic wave self infrasonic wave of incoming biology detection cabin. The biology that biological life monitoring and life-support system 300 ensure in self infrasonic wave detection apparatus 1 biological is in animation. Signal detection and collection processing system implementing 400 are for carrying out infrasonic wave signal detection and collection to the biology in biology self the infrasonic wave detection cabin in self infrasonic wave detection apparatus 1 biological, and carry out signal processing.

Step S2, places biology in biology self the infrasonic wave detection cabin 3 in self infrasonic wave detection apparatus 1 biological. In the present embodiment, biology includes but not limited to mouse, rabbit, cat, Canis familiaris L., monkey, people etc. Vacuum pump 2 makes biology self the infrasonic wave detection cabin in self infrasonic wave detection apparatus 1 biological be in vacuum state, and its vacuum environment can block in external sound wave or infrasonic wave self infrasonic wave of incoming biology detection cabin. The biology that biological life monitoring and life-support system 300 ensure in self infrasonic wave detection apparatus 1 biological is in animation. It is isolated from the outside by vacuum environment. Preferably, biological life monitoring and life-support system 300 guarantee to be in atmospheric pressure state in biological self infrasonic wave detection cabin 3, to meet and to ensure the needs of animal welfare in self infrasonic wave detection process biological. Signal detection and collection processing system implementing 400 are for carrying out infrasonic wave signal detection and collection to the biology in biology self the infrasonic wave detection cabin in self infrasonic wave detection apparatus 1 biological, and carry out signal processing.

Step S3, signal detection and collection processing system implementing 400 detect biogenic infrasonic wave in biology self the infrasonic wave detection cabin 3 in self infrasonic wave detection apparatus 1 biological. Biological self infrasonic wave detection includes but not limited to the biological infrasonic wave detection self produced such as mouse, rabbit, cat, Canis familiaris L., monkey, people, including but not limited to the infrasonic wave detection that each biologic-organ self produces, biologic-organ is brain, heart, lung, liver etc. such as.

Step S4, signal detection and collection processing system implementing 400 collect biogenic infrasonic wave signal in biology self the infrasonic wave detection cabin 3 in biology self infrasonic wave detection apparatus 1 detected, the analyzing and processing of places of going forward side by side acoustic signals, the biogenic infrasonic wave signal collection of illustrative plates of final acquisition, analyze and arrange biogenic infrasonic wave signal collection of illustrative plates, the relatively difference of biogenic infrasonic wave signal collection of illustrative plates and benchmark infrasonic wave collection of illustrative plates, judge whether biological or biologic-organ produces pathological changes, as found biology or biologic-organ generation pathological changes, then make corresponding pathological changes processing method.Preferably, the biology of the present embodiment self infrasonic wave detection method, comprise the steps:

Step S1, self infrasonic wave detection apparatus biological is provided, self infrasonic wave detection apparatus biological includes: biological self infrasonic wave detection cabin, vacuum chamber, wherein vacuum chamber is used for ensureing that biological self infrasonic wave detection cabin is in vacuum environment, and it is incoming that the vacuum environment in biological self infrasonic wave detection cabin is used for blocking extraneous infrasonic wave.

Step S2, places biology in biology self the infrasonic wave detection cabin in biological self infrasonic wave detection cabin.

Step S3, the biogenic infrasonic wave in detection biological self infrasonic wave detection cabin.

Step S4, collects the biogenic infrasonic wave signal in biology self the infrasonic wave detection cabin detected, the analyzing and processing of places of going forward side by side acoustic signals, it is thus achieved that biogenic infrasonic wave signal collection of illustrative plates.

Preferably, self further comprising the steps S5 of infrasonic wave detection method biological: analyze and arrange biogenic infrasonic wave signal collection of illustrative plates, the relatively difference of biogenic infrasonic wave signal collection of illustrative plates and benchmark infrasonic wave collection of illustrative plates, judge whether biological or biologic-organ produces pathological changes, find biology or as described in biologic-organ generation pathological changes, then make corresponding pathological changes processing method.

Biology according to the present invention self infrasonic wave detection method, it becomes possible to improve biological infrasonic signal to noise ratio, reduce the acquisition time of biological specimen, improve effective, the high-fidelity collection of biological infrasound signals. Self infrasonic wave of the biology of the present embodiment detection system can also realize following beneficial effect: the device 1 of biological self infrasonic wave detection provides a biological life monitoring and life-support system, to meet and to ensure the needs of animal welfare in self infrasonic wave detection process biological; Next, the device 1 of biological self infrasonic wave detection provides an efficient cofferdam, to realize isolation environment noise and to ensure the detection of biological small-signal, it is possible to obtain biological infrasonic wave effective, high-fidelity; Again, by the device 1 of the biology of the present embodiment self infrasonic wave detection, it becomes possible to accurately detect out the infrasonic wave of biology, biological each organ, thus detecting the reason of biology, biological each organ generation pathological changes; 4th, utilize the device 1 that biology self infrasonic wave of the present embodiment detects, it becomes possible to the generation biology of pathological changes, biological each organ are carried out infrasonic wave inductive treatment, and fixed point carries out the treatment of pathological changes, removes thus realizing pathological changes efficiently, rapidly; 5th, the device 1 of self infrasonic wave of the biology of the present embodiment detection achieves Automatic Control, significantly reduces detection and hand labor intensity in monitoring process, decreases expense.

Those skilled in the art, after considering description and putting into practice invention disclosed herein, will readily occur to other embodiment of the present invention. The application is intended to any modification of the present invention, purposes or adaptations, and these modification, purposes or adaptations are followed the general principle of the present invention and include the undocumented known general knowledge in the art of the disclosure or conventional techniques means. Description and embodiments is considered only as exemplary, and the true scope of the present invention and spirit are pointed out by claim below. It should be appreciated that the invention is not limited in precision architecture described above and illustrated in the accompanying drawings, and various amendment and change can carried out without departing from the scope. The scope of the present invention is only limited by appended claim.

Claims (10)

1. biology self an infrasonic wave detection system, it is characterized in that, including: biological self infrasonic wave detection cabin, vacuum chamber, biological life monitoring and life-support system and signal detection and collection processing system implementing, wherein said vacuum chamber is used for ensureing that self infrasonic wave of described biology detection cabin is in vacuum environment, it is incoming that the vacuum environment in self infrasonic wave of described biology detection cabin is used for blocking extraneous infrasonic wave, the monitoring of described biological life and life-support system are for ensureing that the biology in self infrasonic wave of described biology detection cabin is in animation, described signal detection carries out infrasonic wave signal detection and collection with collection processing system implementing for the described biology that self infrasonic wave of described biology is detected in cabin, and carry out signal processing.

2. biological self infrasonic wave detection system as claimed in claim 1, it is characterised in that self infrasonic wave of described biology detects cabin and described vacuum chamber, the monitoring of described biological life and life-support system and described signal detection and collection processing system implementing connection.

3. biological self infrasonic wave detection system as claimed in claim 1 or 2, it is characterised in that self infrasonic wave of described biology detection cabin is built in described vacuum chamber.

4. biology self an infrasonic wave detection system, it is characterized in that, including: biological self infrasonic wave detection cabin, vacuum chamber, self infrasonic wave of described biology detection cabin is built in described vacuum chamber, the bottom in self infrasonic wave of wherein said biology detection cabin is provided with the first Magnet, the sidewall of described vacuum chamber is provided with multiple second Magnet, the bottom in self infrasonic wave of described biology detection cabin is provided with the 3rd Magnet, the lateral wall in self infrasonic wave of described biology detection cabin is provided with multiple 4th Magnet, described first Magnet and described 3rd Magnet are oppositely arranged, its opposite polarity, described second Magnet and described 4th Magnet are oppositely arranged, its opposite polarity.

5. biology self an infrasonic wave detection method, it is characterised in that described method comprises the steps:

Step S1, biological self infrasonic wave detection system is provided, self infrasonic wave of described biology detection system includes: biological self infrasonic wave detection cabin, vacuum chamber, biological life monitoring and life-support system and signal detection and collection processing system implementing, wherein said vacuum chamber is used for ensureing that self infrasonic wave of described biology detection cabin is in vacuum environment, it is incoming that the vacuum environment in self infrasonic wave of described biology detection cabin is used for blocking extraneous infrasonic wave, the monitoring of described biological life and life-support system are for ensureing that the biology in self infrasonic wave of described biology detection cabin is in animation, described signal detection carries out infrasonic wave signal detection and collection with collection processing system implementing for the described biology that self infrasonic wave of described biology is detected in cabin, and carry out signal processing,

Step S2, detects in biology self the infrasonic wave detection cabin in cabin at self infrasonic wave of described biology and places biology;

Step S3, described signal detection and described biogenic infrasonic wave in described biology self the infrasonic wave detection cabin in collection processing system implementing detection self infrasonic wave of described biology detection cabin;

Step S4, described signal detection and collection processing system implementing collect described biogenic infrasonic wave signal in described biology self the infrasonic wave detection cabin in described biology self the infrasonic wave detection cabin detected, the analyzing and processing of places of going forward side by side acoustic signals, it is thus achieved that described biogenic infrasonic wave signal collection of illustrative plates.

6. biology self an infrasonic wave detection method, it is characterised in that described method comprises the steps:

Step S1, biological self infrasonic wave detection system is provided, self infrasonic wave of described biology detection system includes: biological self infrasonic wave detection cabin, vacuum chamber, self infrasonic wave of described biology detection cabin is built in described vacuum chamber, the bottom in self infrasonic wave of wherein said biology detection cabin is provided with the first Magnet, the sidewall of described vacuum chamber is provided with multiple second Magnet, the bottom in self infrasonic wave of described biology detection cabin is provided with the 3rd Magnet, the lateral wall in self infrasonic wave of described biology detection cabin is provided with multiple 4th Magnet, described first Magnet and described 3rd Magnet are oppositely arranged, its opposite polarity, described second Magnet and described 4th Magnet are oppositely arranged, its opposite polarity,

Step S2, detects in biology self the infrasonic wave detection cabin in cabin at self infrasonic wave of described biology and places biology;

Step S3, described signal detection and described biogenic infrasonic wave in described biology self the infrasonic wave detection cabin in collection processing system implementing detection self infrasonic wave of described biology detection cabin;

Step S4, described signal detection and collection processing system implementing collect described biogenic infrasonic wave signal in described biology self the infrasonic wave detection cabin in described biology self the infrasonic wave detection cabin detected, the analyzing and processing of places of going forward side by side acoustic signals, it is thus achieved that described biogenic infrasonic wave signal collection of illustrative plates.

7. biology self infrasonic wave detection apparatus, it is characterized in that, including: biological self infrasonic wave detection cabin, vacuum chamber, wherein said vacuum chamber is used for ensureing that self infrasonic wave of described biology detection cabin is in vacuum environment, and it is incoming that the vacuum environment in self infrasonic wave of described biology detection cabin is used for blocking extraneous infrasonic wave.

8. self infrasonic wave detection apparatus biological as claimed in claim 7, it is characterised in that self infrasonic wave of described biology detection cabin is built in described vacuum chamber.

9. biology self an infrasonic wave detection method, it is characterised in that described method comprises the steps:

Step S1, self infrasonic wave detection apparatus biological is provided, self infrasonic wave detection apparatus of described biology includes: biological self infrasonic wave detection cabin, vacuum chamber, wherein said vacuum chamber is used for ensureing that self infrasonic wave of described biology detection cabin is in vacuum environment, and it is incoming that the vacuum environment in self infrasonic wave of described biology detection cabin is used for blocking extraneous infrasonic wave;

Step S2, detects at self infrasonic wave of described biology and places biology in cabin;

Step S3, detects described biogenic infrasonic wave in self infrasonic wave of described biology detection cabin;

Step S4, collects described biogenic infrasonic wave signal in described biology self the infrasonic wave detection cabin detected, the analyzing and processing of places of going forward side by side acoustic signals, it is thus achieved that described biogenic infrasonic wave signal collection of illustrative plates.

10. biology according to claim 9 self infrasonic wave detection method, it is characterized in that, described method further includes steps of analysis and arranges described biogenic infrasonic wave signal collection of illustrative plates, the relatively difference of described biogenic infrasonic wave signal collection of illustrative plates and benchmark infrasonic wave collection of illustrative plates, judge whether described biology or biologic-organ produce pathological changes, biological as described in finding or as described in biologic-organ generation pathological changes, then make corresponding pathological changes processing method.