JPH03505781A - Detection of metals and other substances - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] Detection of metals and other substances The present invention relates to the field of selective detection of objects made of particular types of materials.

This invention can be made with selected types of materials and can be made with different types of materials. In order to detect objects that are as hidden as possible, e.g. when mapping mineral formations, positioning embedded vibrators, Apply when searching for gallstones. Features of this invention are metal for safety purposes. An embodiment used for detection will now be described.

Metal detection for safety purposes is one of two purposes: To detect theft of metal objects or to detect objects used offensively, e.g. firearms. The deviation has one purpose.

Precious metal theft involves small amounts hidden on the thief's body before being placed in a safe area. Metals are often carried around repeatedly. Existing metal detection systems are light , has almost no detection ability for small metal objects, so normal safety systems cannot detect them. systems include some means of artificially searching for people/objects located in safe areas. There is.

For example, screening of people in possession of offensive metal objects and their luggage at airports usually requires A conductive loop is used. The person/object passes through the induction loop and is attached to the person/object. When a sufficiently large metal object changes the magnetic field, the induced voltage in the inductive loop changes. .

This change in voltage is used to alert people/objects to the presence of metal. position of object Since no information is given about location or size, passers-by can You may be subject to inspection even if you are in possession of any belongings.

The invention emits electromagnetic radiation into a predetermined inspection area and at multiple discrete areas within the inspection area. detects a parameter of the electromagnetic radiation, generates a signal representing the value of the detected parameter, and by processing the signal of the object and generating another signal representing the contents of the detection area. Provides a method for selectively detecting.

This invention can operate in transmit mode and receive mode and has multiple Antenna, an electromagnetic oscillation source that can be switched and connected to each antenna, and each antenna specified. determines in which mode it should operate at the time and switches the selected one of the antennas to the electromagnetic control means for connecting to the oscillator source and receiving by each antenna in receive mode; monitoring means for generating a signal indicative of a parameter of the received electromagnetic radiation; and a processing means for generating a separate signal from the output of the contents of the inspection area. In embodiments of the invention used for metal detection, the electromagnetic radiation is radio frequency. It is preferable.

The strength of the received signal to monitor the presence, size and/or shape of detected metal objects. It is only necessary to measure the degree.

The phase of the received signal has information about the inclusion of the metal object.

Advantages obtained by embodiments of the present invention include detecting metal objects attached to a person/object to be inspected. Being able to find the position of the body.

Small, light objects can be detected using a device embodying the invention.

Other advantages provided by embodiments of the invention include low power (e.g. (for example, 0.01 watt or less), whereas high The power embodiment is that it can be used with simple receiver circuits.

Other features and advantages of the invention may be obtained by way of example of implementation of the invention with reference to the accompanying drawings. This becomes clear from the description of the example.

FIGS. 1 and 2 show an embodiment of the present invention in which the received radiation density pattern is Diagrammatically shows how it is affected by metal objects installed in the antenna array. 3 shows a different arrangement of the antenna in another embodiment of the invention, Figures 4a and 4b illustrate a safety system included in another embodiment of the invention; FIG. 5 shows a configuration of circuit elements suitable for use in the embodiment of FIG. 4b.

Different types of materials exhibit widely varying reflection properties for electromagnetic radiation, and each material has These properties for the radiation vary with the frequency of the incident radiation. In an embodiment of the invention, L7 was selected using differences in reflectance between material types at specific frequencies. selectively detecting objects consisting of types of materials. The present invention for metal detection , the property of metals as highly electrically conductive materials to reflect radiation at radio frequencies. use. By the way, materials with low conductivity have low reflectance at that frequency.

In the embodiments shown in the diagrams of FIGS. 1 and 2, each of four antennas 1 or Two opposing banks define a detection area 5. on the other hand The antenna transmits reception on the selected frequency, in this example 4 GHz, and the other The antenna of receives the transmitted radiation. Is Figure 1a a dipole antenna? It shows the directionality of the radiation. The intensity of the waves radiated from such an antenna is , changes with the angle from the antenna surface based on equation (1).

The intensity of the radiated wave is X (6) cc sin28 (1 ).

When antenna 1b radiates, antenna 1g receives the highest intensity radiation, then 1 h and 1f, and antennas in the same plane as the transmitting antenna have minimum or zero intensity. receive.

When a metallic object is placed in the detection area 5 as shown in Fig. 1b, the received intensity pattern changes. Metal objects reflect radiation, increasing the reception strength of antenna 1a and IC. However, on the other hand, the reception strength of antenna 1g decreases significantly. a specific antenna that transmits By changing this, different reception strength patterns as shown in FIG. 1C can be obtained. i.e. , antenna 1b is receiving, and antenna IC is transmitting in this case. Reception strength pattern The characteristics of the particular transmitting antenna, the position of the receiving antenna and the gold It depends on the size and position of the genus object 2.

Figure 2 shows how the received intensity pattern varies depending on the shape of the metallic object in the detection area. It shows what is decided.

Transmit the radiation from each antenna in the array in turn, ensuring that each different transmitter is in operation. The detection area of the antenna array is determined by measuring the intensity at each receive antenna when The metallic objects in area 5 are effectively illustrated in two dimensions. Complete set of strength measurements is the property of the object in the detection area.

In general, metallic objects do not independently pass through the detection region 5 of the metal detection embodiment. hidden or carried by other objects or people. A series of strength measurements , for all objects or human characteristics that have passed through the detection area. But long The non-metallic materials that make up objects or humans that absorb or diffract radiation are , causes only a small change in the transmitted radiation at this frequency, but once On the other hand, covered or carried metallic objects will cause a relatively large received strength pattern. act as if it were a decision.

There are many different ways to investigate elements that are three dimensional. one that can be used The method is to screen a person or object and move the detection area, while surveying the entire area. It is the execution of a sequence over and over again. Once a series of intensity measurements are taken, each Measurements allow different sections to be represented through the screened person or object. Ru. Embodiments of the invention achieve one complete mapping sequence in 5 msec This allows a person to walk past the device at a walking pace, allowing a large number of sections to be N is captured.

Other methods of obtaining information about a screened object or person in three dimensions are A three-dimensional detection area is defined using several antenna banks. Figure 3 is shows such an embodiment, where six antenna banks define a detection area. . A mapping sequence involves screening a stationary person or object to This can be done in two ways. The first method is to create an application like three separate systems. Operate the antenna to perform three separate mapping sequences on antennas 10, 11, and 12. The aim is to achieve the goals and objectives. The second method is to transmit from each antenna in the array in turn. and measure the reception strength of all other antennas for each transmitter. Ru.

In another embodiment, the phase of the received signal is measured along with or instead of the intensity. be done.

Once screening data is obtained, it is processed to make it useful information. be done. The specific processing used depends on the state (application) in which the device is placed. It will be done. More than one type of processing can be used in a single embodiment of the invention. Ru.

All series of screening data are directly processed using appropriate algorithms. , the size, shape, mass of the metal object in the screened person or object, Information about location can be obtained. Or that data is a signal stored in memory Processed in comparison with Such processing is called Type I or Type ■ detection. This can be achieved using the two methods given below.

Type I detection involves a series of intensity measurements on a screened object or person. A series of accumulated intensity measurements previously taken on the same object or person. compared to the data.

If a screened object or a metal object related to a person the system detects and suggests changes. system operator data to allow manual exploration of the screened object or person. Can be placed. Type I detection can detect stolen metal items and is especially Detects theft of secret documents formed on paper specially treated to contain can be used to

In type ■ detection, a set of intensity measurements is processed and The stored intensity obtained by displaying a specific object such as a component on the screen. It is compared with the measurement result set. This processing and comparison represents the objects displayed on the screen. to detect measurements representing a particular metal object within a set of measurements. , the system indicates the existence of such a specific object. Examples of the present invention are , configured to detect such aggressive objects regardless of the object's orientation. Ru. For example, an aggressive object can be displayed on the screen from many positions and directions, and then displayed sequentially. The measurement results for each person and object shown are compared with the measurement results displayed next. The example is , detect any of a number of aggressive objects, and determine which objects are detected and displayed. The device is configured to detect which side of the person/object the person/object is located on.

Embodiments of the invention may include a number of different security methods depending on what type of detection is required. integrated into the tea system. Figure 4a shows a security booth implementing the present invention. shows. In this case, entry to the security area will be through this booth. It will be done. Before the booth entrance door 20 opens, the personal identification card is inserted into the card reader 15. entered and the associated code number must be entered correctly manually from the keyboard 16. Must be. When a person passes through the booth, their position is detected by the antenna array 1. Ru. Processor 30 stores the intensity measurements obtained for the associated identification code. Compare with the strength measurement results. When humans possess the same metals as normal , the green light 22 turns on and the booth exit door 21 opens. If not, the The person is trapped in the booth until the stem operator determines the reason for the discrepancy. . This system can also perform type ■ detection.

Figure 4b shows a type H metal detector, for example for airport check-in. . The processor 30 alerts the system operator to the presence of an offensive object such as a firearm. Activate the alarm buzzer or light 25 to do so. Or, the screen display Used to display the location of aggressive objects on the displayed person, object, etc.

Figure 5 shows how to perform the screen display (mapping) sequence in the embodiment of Figure 4a. An example of a configuration for this purpose is shown below. In this example, each has a length of λ/2, It has 16 dipole antennas 1 arranged in two rows of 8 antennas facing each other. do. Processor 30 controls screen display processing and determines the transmit/receive mode of each antenna. merging functions to control, process and compare sets of intensity measurements.

When the screen display process begins, the processor 30 outputs a control signal in the form of a 4-bit word. is sent to the transmit multiplexer 7, and at the same time receives a control signal in the form of a 4-bit word. The signal is sent to multiplexer 8. Both multiplexers are connected via circulator 4. Switch the antennas in sequence in sequence. Is the processor using antenna 1a as oscillator 6? The antenna 1b transmits the 4GHz signal supplied from the The signal is transmitted for the set time, and each antenna sequentially transmits the signal for the set time in the same way. An instruction is issued to the transmission multiplexer 7 to transmit only.

The processor receives signals from antennas 1b to 1p sequentially while antenna 1a is transmitting a signal. antennas la, lc while antenna 1b is transmitting the signal. ~1p sequentially measures the received signal, and similarly each antenna that is not transmitting sequentially measures the received signal. The multiplexer 8 is instructed to receive the signal.

The received signal is supplied from the receive multiplexer 8 to the modulation circuit, amplifier 16, and detection circuit. It will be done. The oscillation frequency of the local oscillator 14 in the modulation circuit is an intermediate frequency signal of approximately 30 MHz. The number is selected to be output from mixer 15. The amplitude of each amplified received signal is The data is measured by the detector 17 and converted into 8-bit data by the analog/digital converter 18. Converted to tower. The signals received and converted into 8-bit data words are sequentially The signal is supplied to the processor 30 and stored in memory.

Once one screen display sequence is completed, the processor performs processing and comparison functions. Ru. The processor processes one set of information about a particular person/object that has already been obtained and displayed. A signal representing the received signal of the spot is stored in memory. The two sets of received signals are compared. compared. When the processor detects a mismatch, it activates the display 35 and a warning signal is generated. Is displayed. The processor calculates the position of the object that caused the discrepancy and is output to the display.

If a type H detection occurs, the processor indicates the offensive object in memory. Stores at least one signal. This signal is the received signal of the displayed object is compared with the set of received signals obtained from Vs where an offensive object is displayed If the comparison result indicates that the object is present in the object, the processor displays the is activated and a warning signal is displayed. The location of aggressive objects is also displayed.

FIG. 5 shows one embodiment of the invention and many different circuits can be implemented. . Many variations regarding the processing and comparison of received and stored signals are possible. invention In this embodiment, there is a need to compare all of the received signals and find exact matches of the signals. There's no need. These parameters can be adjusted to vary the processing time and detection requirements of the entire system. The meter can be changed. For example, up to 5 neighbors for each transmit antenna When processing the received signal of the antenna, a short processing time is sufficient.

Similarly, monitor all received signals and detect the signal that is most different from other received signals, It is also possible to use this signal to indicate which other signals should be processed.

In other embodiments, the screen display During the sequence, the number of antennas transmitting simultaneously may be increased to a certain extent. .

Although the features of the invention have been described in connection with metal detectors for security purposes, the invention As mentioned above, a wide range of applications are possible. Certain non-metallic substances such as gallstones Embodiments for the detection of objects of different types may be used for circumferential ranges other than those used in the embodiments described above. Uses electromagnetic waves with wave numbers. Furthermore, carried out to map ore layers, buried pipes In the example, the dimensions of the antenna array are different from the embodiments described above.

Submission of translation of written amendment (Article 184-8 of the Patent Law) January 8, 1991

Claims (2)

[Claims] 1. transmitting electromagnetic radiation to a predetermined detection area, and transmitting electromagnetic radiation to a plurality of spatially located areas in said detection area; detecting a parameter of the electromagnetic radiation at spaced apart positions; and generate a signal indicative of the value of A method for selectively detecting an object, processing said signal to generate a signal. 2. transmitting and receiving modes are possible and located in a limited detection area. a plurality of antennas consisting of a plurality of antennas, and one antenna switchably connected to each of the antennas. determining a mode in which an electromagnetic oscillation source and each of said antennas are operated for a specific time; control means for connecting the selected one of the antennas to the electromagnetic oscillation source; Detecting the parameters of said electromagnetic radiation received by each antenna in reception mode and a monitor means for generating a signal indicating the value of the detected parameter; to generate a signal representative of the contents of said detection area based on the output of said detection area; A detection device comprising processing means for processing the signal.