KR20160008937A - Vibration and shock sensing system using magnetic field and security system thereusing - Google Patents

Abstract

The present invention relates to a vibration and shock sensing system using a magnetic field and a security system using the same. The present invention relates to a technique which enables a coil and a core (permanent magnet) to freely move to make a magnetic field, which is generated by mutual motion in the case of vibration and shock, large. The device comprises: a bobbin; the coil wound around the bobbin; the permanent magnet installed in an internal path of the bobbin; a spring connected to both ends of the permanent magnet to limit motion of the permanent magnet; and a fixing plate fixing the spring.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a vibration and shock sensing apparatus using a magnetic field,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a vibration impact sensing apparatus using a magnetic field and a monitoring system using the same.

More particularly, the present invention relates to a technique for allowing a coil and a core (permanent magnet) to move freely, respectively, thereby increasing a magnetic field generated by mutual motion during a vibration impact.

The present invention is mainly applicable to national institutional industrial science system boundary system such as fence cutoff detection, crud intrusion detection, and pipeline breakage detection installed as part of the national major institution scientific boundary system.

It is common for the scientific boundary system, such as the crime prevention system, to be constructed so that the CCTV system and the control system can be integrated and operated.

CCTV has a number of limitations, such as blind spots, poor visibility in bad weather, and the ability to identify intruders by watching a 24-hour monitor.

However, the conventional magnetic field change detection system detects a moving object with a strong magnetic body, so if the intruder intrudes into the body without the magnetic body, it may be impossible to detect the magnetic field change.

In addition, the conventional magnetic field change detection system is disadvantageous in that the coil and the core are integrated and can only move in the direction of the magnetic field, so that even if a strong vibration shock is generated, the detection capability is deteriorated. That is, since the coil and the permanent magnet have a structure in which they must be in close contact with the strong magnetic body, the change of the magnetic field is fine and the detection signal amplification ratio should be adjusted to be very high. In this case, the probability of occurrence of false alarm becomes high.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems associated with conventional magnetic field sensing devices as described above, and it is an object of the present invention to provide a magnetic field sensor in which a coil and a permanent magnet can freely move, And a monitoring system using the same.

According to an aspect of the present invention, there is provided a vibration impact detecting apparatus using a magnetic field, comprising: a bobbin; A coil wound around the bobbin; A permanent magnet installed in the inner passage of the bobbin; A spring connected to both ends of the permanent magnet so as to restrict movement of the permanent magnet; And a fixing plate for fixing the spring.

Further, the bobbin; A coil wound around the bobbin; A permanent magnet installed in the inner passage of the bobbin; A leaf spring connected to one end of the permanent magnet so as to restrict movement of the permanent magnet; And a fixing plate for fixing the plate spring.

Further, the bobbin; A coil wound around the bobbin; A permanent magnet embedded in the inner passage of the bobbin; A moving pedestal installed in the inner passage of the bobbin to guide movement of the permanent magnet; And a fixing plate for fixing the movable pedestal.

Further, a circular coil; A permanent magnet embedded in the center of the circular coil; A spring connected to limit movement of the circular coil; And a fixing frame for fixing the spring.

Further, a circular coil; A plurality of permanent magnets installed to surround the circular coil; A spring connected to limit movement of the permanent magnet; And a fixing frame for fixing the spring.

Further, a plurality of circular coils; A permanent magnet installed between the circular coils; A spring connected to limit the movement of the circular coil and the permanent magnet, respectively; And a fixing frame for fixing the spring.

According to an aspect of the present invention, there is provided a monitoring system using a sensing device, An amplifying unit for amplifying a voltage and a current which are sensed values inputted from the vibration and impact sensing apparatus; A noise removing unit for removing noise included in the amplified value; A signal analyzer for analyzing the amplified signal; A communication unit for transmitting the analyzed signal to a remote control center; Thermal sensor; And a control room server having a remote control operation program capable of determining whether a magnetic field is generated by a natural phenomenon or a magnetic field caused by an artificial penetration, and can appropriately control accordingly.

According to the vibration shock detection system using the magnetic field of the present invention, there is no need to adjust the amplification factor to be high, so that it is possible to prevent the occurrence of false alarms.

Further, according to the present invention, it is possible to detect simultaneous multiple magnetic field change and partial magnetic field generation by interlocking with a weather sensor by a vibration of a fence caused by wind, So that the intruder detection can be precisely performed by discriminating whether the magnetic field is generated by a natural phenomenon or a magnetic field caused by an artificial penetration.

According to the present invention, by configuring a PIR sensor, it is possible to distinguish whether a change in the magnetic field occurs due to the detection of an object having a body temperature or only a change in the magnetic field is detected in a state in which the PIR sensor is not detected. And the vibration shock signal are classified and processed, thereby preventing the occurrence of false alarms.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a state in which a permanent magnet is provided in an inner passage of a bobbin and fixed to a fixed frame by using a spring as a first embodiment of the present invention. Fig.
2 is a view showing a state in which a permanent magnet is provided in an inner passage of a bobbin and fixed to a fixed frame by using a leaf spring as a second embodiment of the present invention.
3 is a view showing a state in which a moving base is provided inside a bobbin and a permanent magnet is placed on a moving base as a third embodiment of the present invention.
4 is a view showing a state in which a coil is fixed to a fixed body and a permanent magnet is provided in the center of the coil, according to a fourth embodiment of the present invention.
5 is a view showing a state in which a plurality of permanent magnets are fixed to a fixed frame and a coil is provided in an inner space formed by permanent magnets, according to a fifth embodiment of the present invention.
6 is a view showing a state in which a plurality of coils are fixed to a fixed frame and permanent magnets are provided between the coils, according to a sixth embodiment of the present invention.
7 is a monitoring system using the vibration damping apparatus of the present invention.

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

Conventional solenoids consist of a bobbin with a coil wound around it and a fixed iron plate wrapped around the bobbin. Therefore, when a permanent magnet is used as a core, it is impossible to freely move (move) in a magnetic field path inside the bobbin, so that a magnetic field can not be generated even when vibration or impact is applied. Therefore, even if the amplification factor is adjusted to be very high, it is not suitable for use as a vibration shock detector.

In the present invention, when a fixed steel plate surrounding a bobbin is removed, or a bobbin wound with a coil is separated from a fixed steel plate, a bobbin wound around the coil is shaken to cause a permanent magnet of the bobbin inner magnetic path to move, And a structure in which a bobbin wound with a coil moves or a permanent magnet to which a vibration is transmitted through a fixed iron plate having a permanent magnet is moved to generate a magnetic field change, so that it is necessary to largely adjust the amplification factor It is not.

When the detection system of the present invention is installed in a basement or installed on a fence, if an external intruder experiences a vibration impact during digging the ground, attempting to cut a fence, or attempting to take a walk, A structure in which a magnetic field is changed by movement of a core (permanent magnet) in a magnetic path of the wound bobbin, a structure in which a bobbin with a coil wound thereon and a stationary iron plate (with a permanent magnet) And a structure in which a bobbin wrapped around a coil moves or a magnetic field is generated by movement with respect to each other.

1, a permanent magnet 30 is embedded in a bobbin 10 wound with a coil 20. In order to prevent the permanent magnet 30 from moving too irregularly, And the permanent magnets 30 are moved within the elastic range of the spring 40 when the vibration is applied to the coil 40. When the permanent magnets 30 move in the elastic range of the spring 40, (20) to generate a magnetic field.

As shown in FIG. 2, when one end of the permanent magnet 30 is fixed to the plate spring 40 instead of the spring of FIG. 1 and is connected to the spring fixing plate 50 made of a magnetic material or a nonmagnetic material, The permanent magnet 30 moves within the elastic range of the leaf spring and acts on the coil 20 to generate a magnetic field.

As shown in FIG. 3, in order to move the permanent magnet 30 built in the inner passage of the bobbin 10 more freely without being fixed by the spring or the leaf spring of FIG. 1 or 2, The permanent magnet 30 is guided by the curved surface of the moving pedestal 60 and smoothly moves while acting on the coil 20 to generate a magnetic field.

4, when the circular coil 20 is fixed to the supporting frame 70 made of a material having an external noise blocking effect and the permanent magnet 30 is embedded in the center of the circular coil 20, The magnetic field is generated as the circular coil 20 and the permanent magnet 30 move while vibrating.

5, the permanent magnets 30 disposed in the north, south, east, west, and west directions are fixed to the permanent magnet fixture 80 made of a material having an external noise blocking effect by the springs 40, The permanent magnet 30 moves in the elastic range of the spring 40 and acts on the coil 20 to generate a magnetic field when the coil 20 vibrates.

6, the two coils 20 are respectively fixed to the fixed frame 90 by springs, and the permanent magnets 30 are fixed between the two coils 20 with the springs 90 fixed to the fixed frame 90 as well The coil 20 and the permanent magnet 30 are moved within the elastic range of the spring to generate a magnetic field during a vibration shock.

As described above, the sensing device of the present invention allows the coil or the permanent magnet to move individually or simultaneously so that the magnetic field can be easily changed even with a weak vibration impact.

In addition, a database is constructed so that a detection signal can be processed in the control room by adding a PIR sensor or a human body detector to detect when the product and the object having the heat move, and it is possible to detect a vibration impact by an object, Since it is possible to process alarms by distinguishing vibration shock, there is no malfunction such as alarm processing by distinguishing between authorized and unavailable factors.

7, when the sensing value sensed by the vibration shock is input from the magnetic field generating device, that is, the sensing device 100, the entire sensing system of the present invention having the above- A noise removing unit 300 for removing noise included in the amplified value, a signal analyzing unit 400 for analyzing the amplified signal, a communication unit 500 for transmitting the analyzed signal to a remote control center, (600) server equipped with a remote control operation program that can determine whether a magnetic field is generated by a natural phenomenon or a magnetic field caused by an artificial penetration, and can appropriately control accordingly.

In addition, the PIR sensor 700 is connected to the signal analyzer 400 so that alarm processing can be performed by discriminating whether the object is a vibration impact, or whether it is caused by heavy rain, lightning, or hail.

10: Bobbin 20: Coil
30: permanent magnet 40: spring
50: fixed plate 60: movable base
70, 80, 90: fixed frame

Claims (7)

Bobbin;
A coil wound around the bobbin;
A permanent magnet installed in an inner passage of the bobbin;
A spring connected to both ends of the permanent magnet to restrict movement of the permanent magnet; And
And a fixing plate for fixing the spring. Bobbin;
A coil wound around the bobbin;
A permanent magnet installed in an inner passage of the bobbin;
A leaf spring connected to one end of the permanent magnet to restrict movement of the permanent magnet; And
And a fixing plate for fixing the plate spring. Bobbin;
A coil wound around the bobbin;
A permanent magnet embedded in an inner passage of the bobbin;
A moving pedestal installed in the inner passage of the bobbin to guide movement of the permanent magnet; And
And a fixing plate for fixing the movable pedestal. Circular coil;
A permanent magnet embedded in the center of the circular coil;
A spring connected to limit movement of the circular coil; And
And a fixed frame for fixing the spring. Circular coil;
A plurality of permanent magnets installed to surround the circular coil;
A spring connected to restrict movement of the permanent magnet; And
And a fixed frame for fixing the spring. A plurality of circular coils;
A permanent magnet installed between the circular coils;
A spring connected to each of the circulation coil and the permanent magnet to restrict movement of the permanent magnet; And
And a fixed frame for fixing the spring. Vibration impact sensing device;
An amplifying unit for amplifying a voltage and a current which are sensed values input from the vibration and impact sensing apparatus;
A noise removing unit for removing noise included in the amplified value;
A signal analyzer for analyzing the amplified signal;
A communication unit for transmitting the analyzed signal to a remote control center;
Thermal sensor; And
And a control room server having a remote control operation program capable of determining whether a magnetic field is generated by a natural phenomenon or a magnetic field caused by an artificial penetration, and can appropriately control accordingly.

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