JP3222584U - Object fluoroscopy observation device - Google Patents

Abstract

An object fluoroscopy observation apparatus is provided that has high reaction speed, high safety, and strong transmission power of ultra-low frequency electromagnetic waves, and is capable of probing information inside a deep formation. An object fluoroscopic observation apparatus includes an electric field detection module, a signal processing module, a battery module, an analog-digital conversion module, a man-machine interface analysis module, and a wireless communication module, and the electric field detection module is a signal. A circuit is formed by being electrically connected to the processing module, and the electric field detection module easily changes the observation space by including an antenna that is a capacitor for receiving an electric signal generated by a change in electric field strength. . [Selection] Figure 1

Description

  The present invention relates to an object fluoroscopy observation device, and in particular, aims at an object that the user intends to investigate, irradiates the object with ultra-low frequency electromagnetic waves, and transmits related information to the user with reflected ultra-low frequency radio waves. However, it is possible to infer properties such as shape, shape, temperature, substance, moisture content, hardness, thickness, etc. inside the object according to the electrical properties of each layer inside the object.

  Therefore, the present invention can be easily explored by effectively seeing the properties of related materials such as the inside of a stratum, the inside of a building, the distribution state and depth of groundwater layers, and the physical properties of underground materials. The purpose of analysis can be achieved.

  With regard to the current underground or internal detectors, the commonly used ordinary electromagnetic wave or ultrasonic detectors have a poor ability to see through and are misclassified. Therefore, the state of the building and the underground cannot be detected, which poses a threat to the safety of many people, resulting in a serious economic loss.

  And human beings have a demand for exploring abundant underground resources with the ability to see through objects and underground, but the current products have functions such as cheap price, convenience and quickness that the new device of the present invention has. I do not prepare.

  Employing electric power and control lines in current underground fluoroscopy systems is costly, heavy, inferior in search efficiency, and less convenient for the user.

  Among current fluoroscopy systems, there is a system that uses video processing for the exploration of underground resources, but the control and reaction speed of the system is slow, some products generate electromagnetic waves, Impairs health. Further, it is necessary to use a larger external battery or power source, and it is easily affected by electromagnetic waves in the external environment, so that the safety, convenience and accuracy of the user are low.

  Accordingly, it is an object of the present invention to provide an object fluoroscopic observation apparatus that can solve the above problems and solve the problems of the current object fluoroscopic observation system.

  The purpose of the present invention is an object fluoroscopy that is installed in a space set by the user, receives ultra-low frequency radio waves reflected from inside the object, focusing on electric field detection, and can react to the linear character of the object in the object Is to provide a device. Therefore, the present invention makes it possible to effectively investigate the distribution state and depth of the groundwater layer and the physical properties of the underground material, such as the water content and the classification of the material. The advantages are immediate exploration, small volume, light weight, low cost, high safety, high applicability, durability, energy saving, and easy operation.

  In order to solve the above problems and achieve the above object, the object fluoroscopic observation apparatus of the present invention includes an electric field detection module, a signal processing module, a battery module, an analog-digital conversion module, and a man-machine interface analysis module. And a wireless communication module, and the electric field detection module is electrically connected to the signal processing module to form a circuit, and the electric field detection module receives an electric signal generated by a change in electric field strength. It is easy to change the observation space by providing an antenna that is a capacitor for this purpose.

  The signal processing module includes an amplifier circuit and a filter. The amplifier circuit is electrically connected separately from the electric field detection module and the battery module to form a circuit, and the filter is the amplifier. It is preferable that the circuit is formed by being electrically connected to a circuit and separately electrically connected to the battery module, the analog-digital conversion module, and the wireless communication module.

  The battery module includes an assembled battery, a USB charger, and a power supply control unit, and the assembled battery is electrically connected separately from the USB charger and the power supply control unit to form a circuit. A circuit is formed by electrically connecting a power control unit separately from the electric field detection module and the signal processing module, the object fluoroscopic observation device further includes a case, and the battery module is provided in the case, It is preferable that the USB charger is provided on one side surface of the case.

  Another type of object fluoroscopic observation apparatus of the present invention includes the above-described configuration module of the object fluoroscopic observation apparatus, and the man-machine interface analysis module is provided with an interactive video / audio device, a substance state display, and a substance depth display. When the man-machine interface analysis module is selectively connected to at least one of the interactive video / audio device, the substance status display, the substance depth display, and the human body approaches, the substance depth display is automatically The function to be activated can be set, and the wireless communication module is operated by remote operation or other operation methods.

  The present invention has the following effects as compared with the prior art.

  1. With regard to the present invention, when the electric field strength varies depending on the composition of the substance by combining the electric field detection module and the signal processing module, a corresponding electrical signal is generated by the signal processing module, which is immediately converted into an analog-digital conversion module Sent and then sent to the Man-Machine Interface Analysis Module for fast response and high safety. Most importantly, it is resistant to failure and has good impact resistance. In addition, since the transmission power of ultra-low frequency electromagnetic waves is strong, it is possible to probe information inside deep formations.

  2. The battery module in the case of the present invention makes it possible to charge with a USB charger, which is safer than the current object fluoroscopy system and requires the installation of an external battery. Therefore, operability and convenience are improved.

: Diagram showing the system configuration of the present invention : Block diagram showing details of the system of the present invention : Front view showing the principle of the present invention

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  As shown in FIG. 1, the object fluoroscopic observation device of the present invention includes an electric field detection module 2, a signal processing module 3, a battery module 4, an analog-digital conversion module 5, a man-machine interface analysis module 6, and a wireless A communication module 7, and the electric field detection module 2 is electrically connected to the signal processing module 3 to form a circuit. The electric field detection module 2 receives an electric signal generated by a change in electric field strength. It is easy to change the observation space by providing an antenna that is a capacitor for the purpose.

  Among them, when the electric field strength changes depending on the composition of the substance by the combination of the electric field detection module 2 and one signal processing module 3, a corresponding electrical signal is generated in the signal processing module 3, and immediately analog-digital It is sent to the conversion module 5 and then sent to the man-machine interface analysis module 6 so that the reaction speed is fast and the safety is high.

  As shown in FIG. 2, the signal processing module 3 includes an amplification circuit 31 and a filter 32, and the amplification circuit 31 is electrically connected separately from the electric field detection module 2 and the battery module 4. Thus, a circuit is formed, the filter 32 is electrically connected to the amplifier circuit 31, and is electrically connected separately from the battery module 4, the analog-digital conversion module 5, and the wireless communication module 7. Thus, a circuit is formed.

  Among them, the configuration of the electric field detection module 2 is simple, the cost can be suppressed, the manufacturing becomes easy, and at the same time, the failure rate can be suppressed to the minimum.

  As shown in FIGS. 2 and 3, the battery module 4 includes an assembled battery 41, a USB charger 42, and a power supply control unit 43. The assembled battery 41 includes the USB charger 42 and the power supply control unit 43. A circuit is formed by being electrically connected separately from the power supply control unit 43, and a circuit is formed by electrically connecting the power supply control unit 43 separately from the electric field detection module 2 and the signal processing module 3. The fluoroscopic observation apparatus further includes a case 1, the battery module 4 is provided in the case 1, and the USB charger 42 is provided on one side of the case 1.

  As shown in FIG. 3, another type of object fluoroscopy observation device according to the present invention includes the configuration module of the object fluoroscopy observation device according to claim 1, and the man-machine interface analysis module 6 includes an interactive video / audio device 61. , A substance state display 62 and a substance depth display 63 are provided, and the man-machine interface analysis module 6 selectively selects at least one of the interactive video / audio device 61, the substance state display 62, and the substance depth display 63. It is possible to set a function that automatically activates the substance depth display 63 when a human body approaches, and the wireless communication module 7 is operated by remote operation or other operation methods. .

  Among them, the electric field detection module 2 generates a corresponding electric signal according to a change in the conductive field in the environment of the object, and the electric signal is input to the signal processing module, so that noise is removed and amplified, and analog -Send to the digital conversion module and man-machine interface analysis module to achieve the effect of exploring the target in the basement or inside the entity, and it is less affected by the electrical signal than the current object fluoroscopy system. Therefore, it is not necessary to install an external battery, so that operability and convenience are improved, and safety, energy saving, health and convenience are achieved.

  The object fluoroscopic observation apparatus of the present invention is useful because it has high reaction speed, high safety, and strong penetration of ultra-low frequency electromagnetic waves.

  The above embodiments are used to explain the structure, features, and effects of the present invention, and the scope of the claims for utility model registration of the present invention is not limited thereby. Even if various modifications and the same replacement are made without departing from the idea of the present invention, they are all included in the scope of the present invention.

1 case
2 Electric field detection module
3 Signal processing module
31 Amplifier circuit
32 Filter
4 Battery module
41 battery pack
42 USB charger
43 Power control
5 Analog-to-digital conversion module
6 Man-machine interface analysis module
61 Interactive video / audio equipment
62 Substance status display
63 Substance depth display
7 Wireless communication module

Claims (4)

An electric field detection module, a signal processing module, a battery module, an analog-digital conversion module, a man-machine interface analysis module, and a wireless communication module;
The electric field detection module is electrically connected to the signal processing module to form a circuit, and the electric field detection module includes an antenna that is a capacitor for receiving an electric signal generated by a change in electric field strength. It is easy to change the observation space with an object fluoroscopic observation device.   The signal processing module includes an amplifier circuit and a filter. The amplifier circuit is electrically connected separately from the electric field detection module and the battery module to form a circuit, and the filter is the amplifier. 2. The circuit is formed by being electrically connected to a circuit and separately electrically connected to the battery module, the analog-digital conversion module, and the wireless communication module. Object fluoroscopy system. The battery module includes an assembled battery, a USB charger, and a power supply control unit, and the assembled battery is electrically connected separately from the USB charger and the power supply control unit to form a circuit. A circuit is formed by electrically connecting the power control unit separately from the electric field detection module and the signal processing module,
3. The object fluoroscopic observation apparatus according to claim 2, further comprising a case, wherein the battery module is provided in the case, and the USB charger is provided on one side surface of the case. A component module of the object fluoroscopic observation device according to claim 1,
Man-machine interface analysis module is equipped with interactive video / audio device, substance status display and substance depth display,
When the man-machine interface analysis module is selectively connected to at least one of the interactive video / audio device, the substance state display, and the substance depth display, and the human body approaches, the substance depth display is automatically performed. It is possible to set the function to start
An object fluoroscopic observation apparatus, wherein a wireless communication module is operated by remote operation or another operation method.

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