Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456
AU602132B2 - Metal detector sensing head with reduced eddy current coils - Google Patents
[go: Go Back, main page]

AU602132B2 - Metal detector sensing head with reduced eddy current coils - Google Patents

Metal detector sensing head with reduced eddy current coils

Info

Publication number
AU602132B2
AU602132B2 AU66281/86A AU6628186A AU602132B2 AU 602132 B2 AU602132 B2 AU 602132B2 AU 66281/86 A AU66281/86 A AU 66281/86A AU 6628186 A AU6628186 A AU 6628186A AU 602132 B2 AU602132 B2 AU 602132B2
Authority
AU
Australia
Prior art keywords
coil
sensing head
head
detection
metal
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
AU66281/86A
Other versions
AU6628186A (en
Inventor
Bruce Halcro Candy
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
BHC Consulting Pty Ltd
Original Assignee
Halcro Nominees Pty Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Halcro Nominees Pty Ltd filed Critical Halcro Nominees Pty Ltd
Priority to AU66281/86A priority Critical patent/AU602132B2/en
Publication of AU6628186A publication Critical patent/AU6628186A/en
Application granted granted Critical
Publication of AU602132B2 publication Critical patent/AU602132B2/en
Assigned to BHC CONSULTING PTY LTD reassignment BHC CONSULTING PTY LTD Alteration of Name(s) in Register under S187 Assignors: HALCRO NOMINEES PTY LTD
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

Links

Landscapes

  • Investigating Or Analyzing Materials By The Use Of Magnetic Means (AREA)
  • Measurement Of Length, Angles, Or The Like Using Electric Or Magnetic Means (AREA)

Description

METAL DETECTOR SENSING HEAD WITH REDUCED EDDY CURRENT COILS
This invention relates to metal discrimination detection devices.
It is now common art for the remote detection of metal to generate and transmit through a first coil a signal and to detect the magnetic effects of that signal.
Conventionally the signal is effected by an alternating current signal which is fed to the transmission coil and there are then detection electronics which compare a received signal induced in a receiver coil with the transmitted signal.
The induced E.M .F. signal in the receiver coil will carry information by reason of its phase delay and magnitude and magnitude and it is conventional that any such signal is referred to by two quadrature components one of which is the zero phase delay component relative to the transmitted magnetic field or the "resistive" component and the other is the quadrature or 90° phase shift component which shall be referred to as the "reactive" component.
When a metal detector of this type is being used in conventional circumstances, the head which is conventionally separate from the detection electronics is passed over the ground, and some attempt is usually made to adjust the detection electronics so that the ratio of reactive to resistive components contributed to by the ground is used as a zero reference so that any subsequent change in this ratio may be detected suggesting a possibly useful target has been detected.
As the ratio of resistive to reactive component will vary from location to location with different ground types, it is necessary that there shall be some means by which a detector can be brought to a condition whereby the ground is considered as a zero reference. This is usually achieved by some manually adjustable device such as a potentiometer which controls in the electronic components a phase reference device. Obviously then, once the metal detector has been set for that ground to be a zero reference, moving the detector coil across ground in the immediate vicinity would be expected to provide best sensitivity for detection of appropriate targets which have resistive to reactive ratios different to that of the ground.
The problem to which this invention is directed is that it has been discovered with metal detectors of previous design that ground balancing which is important to achieve best sensitivity especially in soils which have a proportion of magnetic material such as magnetite depends upon not only characteristics of the soil but also factors relating to the relative positioning of the head relative to that soil.
In practise with current available detectors optimum ground balancing has been discovered to be a function of the distance between the ground and the sensing head.
A metal detector will be used over ground which will vary in makeup, and in randomly located protuberances.
Further the equipment will be carried by a person at a varying height.
This essentially means that if ground balancing is to be kept at an optimum the head should be kept at a uniform height above the ground especially in magnetic soils. As in practice this is not possible in most circumstances the sensitivity and indeed efficiency in being able to effectively detect an anomoly is severely reduced.
The problem has been to establish just why conventional so called ground balancing can not yield a response which is independent of the distance between the ground and sensing head in many conditions that might be encountered in practice especially in the so called magnetic soils.
As magnetic soils are often the host of the valuable target metals such as gold that are being sought, this is a serious deficiency and it is an object of this invention to propose means by which there can be more effective detection and maintenance of ground balancing especially in magnetic soil conditions.
A first discovery of this invention is that a significant part of the so called ground signal arises from the metal which is within the transmission and receiving coils of the head of the metal detector itself.
Such metal would inherently provide a part of the total received signal and it might reasonably be expected that such a signal would maintain a relatively constant resistive and reactive component.
The further discovery of this invention is that this is indeed not the case.
After extensive investigation, it was discovered that a significant contributor to this difficulty lay in the fact that intersecting fields with the metal parts and particularly the wires of the coils within a head may intersect with differing direction in a local vicinity of the coils and such directions can have different effects on different parts of the coil simply because of the total geometry of the location of the coils and the respective fields and their distribution from the ground.
The problem with this is that such different directions appear to have therefore a different effect insofar that they may induce a greater or lesser eddy current as compared to the further induced E.M.F. from the ground hence changing the ratio of resistive to reactive component in total.
The discovery is then that there is a significant difference between a source of magnetic flux from the soil and coil eddy currents that link the open surface of the detecting coil namely the geometries are quite different. Hence the ground balance setting is a function of the relative location and orientation of the sensing head with respect to the interrogated magnetic soil, even for ground homogeneous in resistive to reactive ratio. The invention can accordingly be said to reside In a sensing head for a metal detector including means for magnetic transmission and detection of a retransmitted signal from a target by means of at least one coil the head being characterised in.that at least some of the conductor material forming the coil and providing for passage of current through the coil is such as to provide for such passage wherein the arrangement is such as to restrict the magnitude of eddy currents In the conducting material.
It is known that the extent of eddy currents for a circular cross- section conductor is approximate proportional to the square of the cross-sectional area of the conductor.
In order to achieve best results then, it is preferred that any conducting material within the coil should be comprised of wire in which the individual conductors have as small a cross-sectional area as is practicable and that the current carrying capacity of a coil should then be achieved by providing a sufficient number of such individual conductors operating in parallel and of course following substantially the same path.
Each of the conductors should also of course be substantially insulated one from the other at least along the substantial length of the path through which they extend.
A type of wire which is referred to in the art as "litz wire" has the characteristics which provide for this substantial resistance to eddy current generation and in so far that it provides a large number of conductors having however such very small cross-sectional area, nonetheless sufficient current carrying capacity overall can be provided for the major detection and transmission requirement of the coil.
Insofar that both the transmission and receiving coil can be subject to the influence of fields and insofar that they can then provide eddy currents and indeed retransmission from any part, it is preferred that any coil within the head is comprised of an arrangement adapted to resist eddy current generation. It is found in practice that incidental metal parts such as faraday screening material generally do not contribute excessive further resistive component through eddy current generation so that provided the substantive conductors that Is the conductors used for winding of the colIs are characterised by having material resisting eddy current generation, then the significant improvement is achieved.
According to a further form of this invention it can be said to reside in a sensing head for a metal detector wherein a total coil eddy current effective series resistance which is less then .015 ohms per kilohertz when measured with coils subject only to its own generated magnetic field and with the measuring current being at a frequency below 10 kilohertz and being substantially sinusoidal.
It is conventional with a metal detector sensing head that a transmitting coil and a receiving coil are located so that in respect of expected detected fields, the two coils are positioned in an effective null location.
The preferred embodiment of the invention is to then manufacture a transmitting and sensing head for a discriminating metal detector of the type described in which there is a first transmission coil wound around a former to be of a generally cylindrical shape, the wire comprising Litz wire constituted by a plurality of individual strands each of which is of 0.071 mm in diameter and each of which is provided with separate cotton insulation along its full length, the wire, however, having each of the strands electrically joined at the respective ends so that each of the strands provides for electrical conduction in parallel.
The receiver coil is likewise wound from 0.071 mm diameter strand Litz wire around a former to be of a generally cylindrical shape, and positioned in an overlapping relationship having a parallel planar alignment such that in respect of a field which are generally aligned so as to emanate from targets in the approximate direction of the axis of the respective coils, the several coils being screened in a conventional way by metallic screening materials. Trials conducted with such a head, using an electronic detection system incorporating a conventional ground balancing adjustment arrangement comprising a potentiometer providing for a zero ground balancing reference control. Raising or lowering the head relative to such ground did not appear to significantly alter any setting for ground balance.
Further, moving the head across the soil in search of targets, showed that there was a very significant improvement in the ablility for the device to maintain stable ground balance and hence significant improvement in discrimination sensitivity with respect to target metals.
In a further embodiment there is provided a single strand coil in which the diameter of the cross-sectional area is significantly less than that which has been hitherto used.
The diameter is indeed now chosen so that there is a series of eddy current resistance in the coil of less than 0.015 ohms per kilohertz for each coil and only in respect of frequencies of less than 10 kilohertz.
However, such an approach is significantly less preferred in that there are a number of electronic and manufacturing disadvantages. These include:-
(a) Power consumption for a given inductance and drive current is greater than that of coils using thicker wire.
(b) Transmitted magnetic intensity varies as the transmitting coil inductance varies as the sensing head interrogates ground of different effective relative permeability.
(c) Coils using substantially finer wires as a single strand conductor rather than as a multi-strand conductor are significantly less robust.
From investigations carried out thus far and experiments, it is found that an adequate compromise can be achieved provided that the series of eddy current resistance Is less than the set 0.015 ohms per kilohertz per coil where the measuring frequency is less than 10 kilohertz and so long as the skin depth at these frequencies is at least double the diameter of the wire from which the coil is wound.

Claims (10)

THE CLAIMS DEFINING THE INVENTION ARE AS FOLLOWS:
1. A sensing head for a metal detector including means for magnetic transmission and detection of a retransmitted signal from a target by means of at least one coil, the head being characterised in that at least some of the conductor material forming the coil and providing for passage of current through the coil is such as to provide for such passage wherein the arrangement is such or the selection of conductor material is such as to restrict the magnitude of eddy currents in the conducting material.
2. A sensing head for a metal detector including means for magnetic transmission and detection of a retransmitted signal from a target by means of at least one coil'the head being characterised in that the conductor is characterised by comprising a plurality of conductors connected to provide for current conduction in parallel the said wires being separated by electrically insulating means from conducting contact with such parallel conductors at least along a substantial length of the conductors.
3. A sensing head for a metal conductor as in either of the last two preceding claims further characterised in that each coil incorporated within the head provides for conduction by wire which is multistranded and in which the respective strands are at least substantially insulated one from the other along at least most of the length of the respective conductors.
4. A sensing head as in any one of the preceding claims further characterised in that each of the respective coils is wound from litz wire and such that the respective strands of the litz wire provide for parallel conducting of current therethrough.
5. A sensing head for a metal detector as in any one of the preceding claims further characterised in that there is a transmission coil and a detection coil each of which coils are position so as to have substantially parallel, axis and to be in an overlapping nulled relationship in respect of fields eminating from the direction of their axis.
6. A detector for the discriminatory detection of metal wherein an electrical pulse is transmitted to a transmission coil and detected by a detection coil, the said transmission coil and detection coil being as characterised within a sensing head as claimed in any one of the preceding claims.
7. A method of effecting discriminatory detection of a distal metal target which comprises effecting a pulse into a transmission coil and detecting any retransmitted signal a detection coil wherein the respective coils are within a sensing head characterised according to any one of the preceding claims.
8. A sensing head as in any one of the preceding claims wherein the diameter of the individual strands of wire providing respective coils in the sensing head have a diameter which is less than 0.1 mm.
9. A sensing.head wherein each coil has a total equivalent eddy current resistance which is less than 0.015 ohms per kilohertz when measured with the coil subject only to its own generated magnetic field and with the measuring current being at a frequency below 10 kilohertz and being substantially sinusoidal.
10. A sensing head substantially described in the specification.
AU66281/86A 1985-11-26 1986-11-26 Metal detector sensing head with reduced eddy current coils Ceased AU602132B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AU66281/86A AU602132B2 (en) 1985-11-26 1986-11-26 Metal detector sensing head with reduced eddy current coils

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
AUPH3573 1985-11-26
AU357385 1985-11-26
AU66281/86A AU602132B2 (en) 1985-11-26 1986-11-26 Metal detector sensing head with reduced eddy current coils

Publications (2)

Publication Number Publication Date
AU6628186A AU6628186A (en) 1987-07-01
AU602132B2 true AU602132B2 (en) 1990-10-04

Family

ID=25610216

Family Applications (1)

Application Number Title Priority Date Filing Date
AU66281/86A Ceased AU602132B2 (en) 1985-11-26 1986-11-26 Metal detector sensing head with reduced eddy current coils

Country Status (1)

Country Link
AU (1) AU602132B2 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU620577B2 (en) * 1987-12-17 1992-02-20 Detection Systems Pty Ltd Search head for metal detectors

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU5870380A (en) * 1979-07-09 1981-01-15 White's Electronics, Inc. Balanced search loop for metal detector
AU7482481A (en) * 1980-09-02 1982-03-11 White's Electronics, Inc. Ground signal rejection metal detector with transmit- receive coil
EP0120154A1 (en) * 1983-03-25 1984-10-03 TRENCH ELECTRIC, a Division of Guthrie Canadian Investments Limited Continuously transposed conductor

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU5870380A (en) * 1979-07-09 1981-01-15 White's Electronics, Inc. Balanced search loop for metal detector
AU7482481A (en) * 1980-09-02 1982-03-11 White's Electronics, Inc. Ground signal rejection metal detector with transmit- receive coil
EP0120154A1 (en) * 1983-03-25 1984-10-03 TRENCH ELECTRIC, a Division of Guthrie Canadian Investments Limited Continuously transposed conductor

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU620577B2 (en) * 1987-12-17 1992-02-20 Detection Systems Pty Ltd Search head for metal detectors

Also Published As

Publication number Publication date
AU6628186A (en) 1987-07-01

Similar Documents

Publication Publication Date Title
US4890064A (en) Metal detector sensing head with reduced eddy current coils
US5459451A (en) Electronic article surveillance system with enhanced geometric arrangement
US4255711A (en) Coil arrangement for search head of a metal detector
US4605898A (en) Pulse field metal detector with spaced, dual coil transmitter and receiver systems
AU754752B2 (en) Shield apparatus for use in conjunction with a well tool and method for shielding a coil
US6566881B2 (en) Shielding method and apparatus using transverse slots
CA1161900A (en) Method and apparatus for determining the electrical conductivity of the ground
CA2363789C (en) Method and apparatus for cancellation of borehole effects due to a tilted or transverse magnetic dipole
US4295095A (en) Apparatus and method for detecting the location of metallic objects having alternating current passing therethrough
US5471143A (en) Apparatus for locating buried conductors using phase-shifted signals
GB2063569A (en) Shielded balanced loop antennas
US8436618B2 (en) Magnetic field deflector in an induction resistivity tool
EP0129282A1 (en) Measuring device for the "contactless" measurement of large thicknesses, for metal materials above the Curie temperature
US20210215845A1 (en) Foreign Object Detector, Wireless Power Transmission System Comprising a Foreign Object Detector and Method of Detecting a Foreign Object
JP3002510B2 (en) Magnetic antennas and antenna systems
KR940009084B1 (en) Antenna system for magnetic and resonance circuit detection
AU602132B2 (en) Metal detector sensing head with reduced eddy current coils
RU2084929C1 (en) Method of geoelectrical prospecting
GB2220071A (en) Method and apparatus for the location of underground pipes and cables
GB2464279A (en) Detection of a buried electric wire
US5247257A (en) Electronic metal detector return signal phase changer
US20260050101A1 (en) Metal Detector Coil
JPH11337606A (en) Cable detector
US1805900A (en) Method of exploring the subsoil
US1692530A (en) Method and apparatus for locating ore bodies