JP2001124862A5 - - Google Patents

Description

[Document name] statement
[Title of the Invention] Metal detection method and metal detector
[Claim of claim]
  [Claim 1] A transmission / reception facing type search coil or transmission / reception coaxial arrangement configured of a transmission coil connected to a DC or AC magnetic field type excitation source and a reception coil arranged to face the transmission coil so as to penetrate the excitation magnetic flux In the type search coil, the disturbance of the excitation magnetic flux generated by the metal foreign matter mixed in the object transported across the excitation magnetic flux by the transmission coil or along the excitation magnetic flux is detected by the reception coil, and received In the metal detection method for detecting the metal foreign object by arithmetic processing of a signal, the transmission / reception facing arrangement type search coil and the transmission / reception coaxial arrangement type search coil respectively disposed along a transport path along which the object is transported It is characterized in that a metal foreign substance in the subject is detected on the basis of each reception signal when the subject respectively passes through. Metal detection methods.
  [Claim 2] A transmission / reception facing type search coil or transmission / reception coaxial arrangement configured of a transmission coil connected to a DC or AC magnetic field type excitation source and a reception coil arranged to face the transmission coil so as to penetrate the excitation magnetic flux In the type search coil, the disturbance of the excitation magnetic flux generated by the metal foreign matter mixed in the object transported across the excitation magnetic flux by the transmission coil or along the excitation magnetic flux is detected by the reception coil, and received In the metal detection method for detecting a metal foreign substance in the subject by performing arithmetic processing of a signal, a pair of the above-mentioned pair of disposed along the transport path with different inclination angles with respect to the transport direction of the subject. It is arranged to detect a metal foreign substance mixed in the object based on the respective reception signals outputted when the object passes through the search coil. Metal detection method comprising.
  [Claim 3] A transmission / reception facing arrangement search coil or a transmission / reception coaxial arrangement search coil composed of a transmission coil and a reception coil disposed so as to face the transmission coil so as to penetrate the excitation magnetic flux, and the excitation magnetic flux by the transmission coil Transport means for transporting the object across or along the excitation magnetic flux, and disturbance of the excitation magnetic flux caused by metallic foreign matter mixed in the object by arithmetic processing of the received signal detected by the reception coil In a metal detector having metal detection means for detecting and detecting metal foreign matter in the subject, at least a pair of search coils having different arrangement types are disposed along a transport path along which the subject is transported. And the metal detection means performs arithmetic processing on received signals detected by a pair of the search coils having different arrangement types, respectively, into the subject Metal detector, characterized in that in order to detect a metal foreign object.
  [Claim 4] A transmission / reception facing arrangement search coil or a transmission / reception coaxial arrangement search coil composed of a transmission coil and a reception coil disposed so as to face the transmission coil so as to penetrate the excitation magnetic flux, and the excitation magnetic flux by the transmission coil Transport means for transporting the object across or along the excitation magnetic flux, and disturbance of the excitation magnetic flux caused by metallic foreign matter mixed in the object by arithmetic processing of the received signal detected by the reception coil A metal detector comprising metal detection means for detecting and detecting metal foreign matter in the subject, wherein a pair of the search coils have different inclination angles along a transport path along which the subject is transported. Are arranged, and the metal detection means is based on respective received signals outputted from the respective search coils when the respective objects pass by. Serial metal detector, characterized in that to detect the metallic foreign matter mixed in the subject.
Detailed Description of the Invention
    [0001]
  Field of the Invention
  The present invention detects needle-like metallic foreign matter (hereinafter referred to as a test object) such as sewing needles, nails, or injection needles which are mixed in a subject sewing product such as clothes or in a subject food such as bread or meat.TheFor needle detectorsPreferred metal detection method and metal detectorIt is related.
    [0002]
  [Prior Art]
  As a conventional needle metal foreign matter detection device for sewing products or food, a control means for amplifying and detecting a single search coil as a transport means such as a belt conveyor and the like and a detection sensor, and the coil And a conveyor type needle detector.
    [0003]
  In these conventional needle detectors, when a subject placed on a conveyor such as a belt conveyor passes a tunnel path type search coil, the induced electromotive force of the search coil due to the AC excitation magnetic field changes due to the contamination of the mixed sample There are AC magnetic field type that catches things, and DC magnetic field type that the search coil catches as a change in the DC excitation magnetic field due to mixing needles as induced electromotive force, but in either case it is based on the electromagnetic induction principle that amplifies induced electromotive force is there.
    [0004]
  [The invention is going to be solvedTheProblem to be
  The detection of a test object using a conventional needle detector for sewing or food use is such that the needle has an extreme specific dimension of several tens of times longer than the diameter of the minute cross section as compared with a test object having a general shape. NotneedleBecause of the test object, there is a difference in the change in the flux linkage to the receiving coil depending on the posture of the needle-like metal foreign object when passing the search coil, and the detection sensitivity is largely different. There was a problem that.
    [0005]
  The change in the flux linkage of the receiving coil depending on the posture of the test object when the search coil passes through the search coil determines whether the excitation magnetic field is an AC magnetic field or a DC magnetic field and the test object is a ferromagnetic material It changes largely depending on whether it is metal or nonmagnetic metal. This is due to the difference between the two detection principles. The following description will be mainly made of the AC excitation magnetic field.
    [0006]
  FIG. 8 is a side view for explaining the entire configuration of a needle detector according to the prior art. The outer shape of the needle detector has a substantially rectangular parallelepiped outer shape, and a rectangular tunnel passage 4 is formed at the center of the needle detector, and the belt conveyor of the conveyer 3 on which the subject 41 is placed penetrates the tunnel passage 4. In order to do so, a transmission / reception facing arrangement type search coil 20 (same as the transmission / reception coaxial arrangement type search coil 30) is provided upright. Then, a signal detected by the search coil 20 (30) for the test object in the subject 41 is sent to the control board 50, where it is subjected to amplification operation processing.
    [0007]
  FIGS. 3 and 4 are an explanatory perspective view showing the configuration of the transmission / reception facing type search coil 20 of the needle detector according to the conventional example, and a sectional view in the direction A of FIG. 3, respectively. The transmitting coil 21 and the receiving coil 22 are relatively wound around the tunnel passage 4, and a pair of receiving coils 22 a and 22 b facing the transmitting coil 21 have an excitation magnetic flux 23 orthogonal to the transport direction P in the tunnel passage 4. Is detected as a change in linkage flux by both receiving coils 22a and 22b, and a change in the induced electromotive force is indicated by a differential connection circuit (not shown) in the differential output signal of the receiving coils 22a and 22b. As the control panel 50.
[0008]
5 and 6 are an explanatory perspective view showing the configuration of the arrangement of the transmitting coil 31 and the receiving coil 32 of the transmitting / receiving coaxial layout search coil 30 in which the transmitting and receiving coils are coaxially arranged, and a sectional view in the B direction of FIG. Three loop-shaped coils are arranged concentrically so as to surround the tunnel passage 4. The transmitting coil 31 is disposed at the central portion, and a pair of receiving coils 32a and 32b are disposed at the front and rear portions sandwiching the transmitting coil 31. ing. The function of the pair of receiving coils 32a and 32b is the same as that of the above-mentioned receiving coils 22a and 22b, and outputs the change of the transmission / reception coaxial arrangement type detection signal to the control board 50 as a differential output signal by the differential connection circuit.
    [0009]
  FIG. 9 shows that in the case where the test object 40 of ferromagnetic metal in the cross section A of the transmission / reception facing arrangement type search coil 20 coincides with the direction of the excitation magnetic flux 23, the magnetic flux is concentrated at one nearest reception coil 22b. It is explanatory drawing which shows the flow of the magnetic flux which showed the state which is carrying out.
    [0010]
  In the case where the test object 40 is a ferromagnetic metal, the magnetic resistance is minimized when passing through the test object 40 when the posture thereof coincides with the direction of the excitation magnetic flux 23. As a result of concentration, the flux linkage of the nearest receiving coil 22b becomes extremely large at a certain point in time. That is, when the attitude of the test object 40 in the search coil 20 coincides with the direction of the excitation magnetic flux 23, it exhibits the highest sensitivity.
    [0011]
  FIG. 10 similarly shows the flow of magnetic flux when the attitude of the nonmagnetic metal needle-like test object 40 in the cross section A of the search coil 20 coincides with the transport direction P and is orthogonal to the direction of the excitation magnetic flux 23 FIG. In this case, unlike the test object 40 of a ferromagnetic metal, when the excitation magnetic flux 23 links with the test object 40, an eddy current flows near the surface of the test object 40, and the magnetic flux of the back electromotive force by the current Acts to cancel the inherent magnetic flux, so the linkage flux decreases significantly as the linkage surface area increases, resulting in a flux change that avoids the test object 40. As a result, at a certain point in time, the flux linkage of the nearest receiving coil 22b becomes extremely sparse and the change in the induced electromotive force also becomes large.
    [0012]
  That is, in the case where the test object 40 is a nonmagnetic metal, the magnetic flux distribution is reverse to that of the magnetic flux distribution of FIG. 9, the change of the induced electromotive force is large in this posture, and the highest detection sensitivity is exhibited.
    [0013]
  Transmission and reception facing arrangement typeSearch coil20In the case where the test object is a ferromagnetic metal, the magnetic flux is focused on the test object having a smaller reluctance, so that the change in the flux linkage of the receiving coil is captured.Transmission and reception facing arrangement typeSearch coil20When passingofThe attitude of the test object is the same as the direction of the magnetic flux of the excitation coilonedirectionIf it wasMagnetic resistance is the smallest,Change in the flux linkage of the receiving coilmostLarge detection sensitivity is also high. But converselyThe posture of the test objectOrthogonal to the direction of the magnetic fluxIf youDetection sensitivity isNoticeablydescend.
    [0014]
  When the test object is nonmagnetic metal,CoveredReversed by eddy current generated in the specimenElectromotive forceThe magnetic flux acts to cancel the original magnetic fluxKu. In this wayChange in flux linkageThe receiving coil is configured to catchTherefore, the posture of the test object with the largest flux linkage due to the magnetic flux from the excitation coil isDuring transmission / reception facing type search coil 20 passingChange in flux linkage alsomostLarge sensitivity is also high. However, on the contrary, the posture of the minimum flux linkage, that is, the specimenExcitation magnetic fieldIs the samedirectionWhen it comes to sensitivityDepending on the posture of the test subject, such asThere is an extreme difference in sensitivity.
    [0015]
  Also in the case of the transmission / reception coaxial search coil 30,ExcitationThe posture and detection sensitivity of the test object with respect to the direction of the magnetic flux areThe subject isFerromagnetic metal bodyOrIt differs similarly depending on whether it is a nonmagnetic metal body or not. That is, excitationDirection of magnetic flux and posture of test objectOperating principleIs essentially the same as in the case of the search and reception facing type search coil 20, butTransmission / reception coaxial arrangement typeTest object passing through the search coil 30Body 41When the direction of the excitation flux is90 ° to each otherBecause there is a difference betweenThe detection sensitivity is almost the reverse relationshipRu. As mentioned above, there is a large difference in detection sensitivity depending on the posture of the test subject, and speaking more directly,oneSearch coilWhen needle-like metal foreign matter is detected only with 20 (30)IsThe foreign matter can or can not be detected.
    [0016]
  The results of a specific demonstration test of the needle detector according to the above-described conventional example are shown below.
In the case of the transmission / reception facing arrangement type search coil 20 having the rectangular tunnel passage 4 whose longitudinal section is a cross section shown in FIG. 3, the transmission / reception opposite where the needle-like metal foreign matter disposed parallel to the X, Y and Z directions described below is detected. The detection voltage of the disposition type search coil 20 is as follows. The X direction represents the transport direction P, the Y direction represents the lateral direction perpendicular to the transport direction P, and the Z direction represents the parallel direction to the longitudinal direction perpendicular to the transport direction P. Further, as the needle-like metallic foreign matter, an iron applique needle was used as the ferromagnetic material, and a stainless steel equivalent needle was used as the nonmagnetic material.
Transmission / reception facing arrangement search coil detection voltage V
Test material / attitude Ferromagnetic metal Nonmagnetic metal
Y 12.3 1.3
X 6.8 4.1
Z 1.3 8
    [0017]
  As can be seen from the above test results, the detection voltage is extremely small for needle-like metal foreign substances parallel to the Z direction in ferromagnetic metals and in the Y direction in nonmagnetic metals, therefore these measured values are practically disturbances such as noise Due to factors, it can not be judged as a significant measurement value in practice. That is, the needle-like metal foreign material arranged in the above direction can not be detected. As described above, when the needle-like metal foreign matter is detected by the conventional search coil 20 (30), there are cases where the detection is impossible due to the posture of the needle-like metal foreign matter. The detection voltage in the X direction indicates an intermediate value of the detection voltages in the Y and Z directions because the shape of the transmission coil 21 has a vertically-long rectangular shape. It can be inferred that
    [0018]
Next, the detection voltage of the transmission / reception coaxial placement search coil 30 in the case where a needle-like metal foreign object is detected by the transmission / reception coaxial placement search coil 30 having the rectangular tunnel passage 4 having a vertically elongated cross section in the same manner is as follows. The test needle is the same as above.
Transmitter / receiver coaxial arrangement search coil detection voltage V
Test material / attitude Ferromagnetic metal Nonmagnetic metal
Y 1.2 10
X 6.8 4.1
Z 1.3 8
    [0019]
  in this way,Transmission / reception coaxial layout search coil 30In the case of ferromagnetic metal placed in the Y and Z directionsNeedle-like metal foreign matterIt can not be detected.
  The present invention has been made to solve the problems in the prior art, and metal detection capable of detecting almost any needle-like metal foreign matter regardless of the direction of the needle-like metal foreign matter mixed in a subject It is an object to provide a method and a metal detector.
    [0020]
  [Means for Solving the Problems]
  In order to solve the above problems, the present inventionDetection of metallic foreign objects based on the respective reception signals when passing the transmission / reception facing arrangement type search coil and the transmission / reception coaxial arrangement type search coil respectively disposed along the conveyance path along which the object is conveyed, or in the conveyance direction On the other hand, metallic foreign matter mixed in the object is detected based on the respective received signals outputted from a pair of search coils arranged with different inclination angles.
    [0021]
  BEST MODE FOR CARRYING OUT THE INVENTION
  Hereinafter, the embodiment of the present inventionExampleWill be specifically described based on the drawings.
    [0022]
  Figure 1And FIG. 2 are sectional views of a search coil for explaining the entire needle detector according to one embodiment of the present invention.Side viewAnd a front view.The drive pulley 5 is rotatably mounted on front and rear bearing bases 6 fixed to a frame 7 of the airframe via bearings 8.Including driveline such as motor,Because it is a known configuration,Illustration and explanation are omitted.In the present embodiment, the transmission / reception facing arrangement type search coil 20 or the transmission / reception coaxial arrangement type search coil 30 is opposed to the conveyance surface at an inclination angle α opposite to each other in the conveyance direction P of the object on the conveyance device 3 It is arranged in the shape of the letter of Katakana.
  thisOf inclination angle αvalueas,On sensitivityFrom 45 ° is good, butInclineThe angle isDecreaseThe tunnelPassage 4 andCarrier machine3 andSearch coil from the relationship of20 (30)60 ° in consideration of the economic aspect because the longitudinal dimension of theSet to.Note thatCarrier 3As transport meansBelt conveyorUsingHowever, other drive means may be used.
    [0023]
  In addition, in each search coil 20 (30) pair, the tunnel passage 4 entrance / exit surface of each search coil 20 (30) is in the letter of K (or the reverse letter of K) with respect to the conveyance direction P of the conveyer 3 Thus, the inlet / outlet surface and the transport passage surface are configured to be opposed to each other while maintaining a prescribed angle, and to be disposed opposite to the transport direction P of the subject 41 at regular intervals in the front-rear direction.
[0024]
According to the combination of the search coil 20 (30) of such an arrangement configuration, the transport surface and the search coil 20 (30) are slantly arranged at a constant angle, and in the letter of Katakana or in the reverse letter of Therefore, depending on the posture of the needle-like test object 41 in the subject 40 on the transport surface when passing the search coil 20 (30), the change in the interlinkage flux 24, that is, the sensitivity in one search coil 20 (30). At the minimum, the sensitivity is not minimized because the relative relationship between the excitation magnetic flux 23 of the other search coil 20 (30) to be subsequently passed and the attitude is significantly different.
    [0025]
  This is because the size of the needles is extremely small in terms of the diameter of the cross section depending on the detection posture in the search coil 20 (30), so it depends on the material of the test object 40, but a single search coil In this case, inconveniences due to undetectability often occur.
    [0026]
  In addition, in each search coil 20 (30) pair, the tunnel passage 4 entrance / outlet surface of each search coil 20 (30) is in the form of a katakana letter or reverse letter with respect to the transport direction P of the transport machine 3 The inlet / outlet surface and the transport passage surface are configured to face each other while maintaining a prescribed angle, and are arranged to maintain a constant distance in the front-rear direction with respect to the transport direction of the subject 41.
    [0027]
  According to the combination of the search coil 20 (30) of such an arrangement configuration, since the transport surface and the search coil 20 (30) are obliquely disposed at a predetermined angle and in a K-shaped katakana character, the search coil 20 (30) The needle-like test object 40 in the subject 41 on the transport surface at the time of passage is at least one of the change in the interlinkage flux, that is, the detection voltage of the search coil 20 (30), at one search coil 20 (30). Since the relative angle between the excitation magnetic flux 23 in the other search coil 20 (30) to be subsequently passed and the attitude of the test object 40 becomes large, the detection voltage does not become small.
    [0028]
  According to this embodimentOf needle detector 10The results of the demonstration test were as follows.
  1. Transmission and reception facing arrangement type search coil Detection voltage V; Ferromagnetic metal (nonmagnetic metal)
      Search coil inclination angle / posture + 60 ° -60 °
              Y 12.3 (1.312.3 (1.3)
              X 6.1 (6.2) 6.1 (6.2)
              Z 4.1 (7.5) 4.1 (7.5)
              Z + 30 °1.3(8) 6.1 (6.2)
  2. Transmitting and receiving coaxial arrangement type search coil Detection voltage V; Ferromagnetic metal (nonmagnetic metal)
      Search coil inclination angle / posture + 60 ° -60 °
              Y 12.3 (1.3)1.2(10)
              X 6.1 (6.2) 13.5 (3.6)
              Z 4.1 (7.5) 8.5 (5.3)
              Z + 30 °1.3(8.3) 13.5 (3.6)
    [0029]
  According to this, all detection voltages indicated by underlines are slight voltages not treated as detectionAnd, Transmit / receive facing arrangement type search coil20In the case of Z + 30 °, it has a low value of 1.3V when the magnetic metal is + 60 ° with the + 60 ° search coil, but it is reversed with 6.1V with the -60 ° search coil. on the other hand, Nonmagnetic metal specimensWhen detecting 40Is a pairTransmission and reception facing arrangement typeSearch coil20Even if it detects with both, because it is 1.3V and the minute voltage, the specimenDetection of 40 is difficult.
    [0030]
  Next, transmit / receive coaxial layout search coil30In the case of an underlined low-voltage attitude value, a pair of other search coils30It can be seen that one of the two values indicates a detection voltage close to the maximum value. This means that the transmit / receive coaxial layout search coil30The Japanese Kana-C character combination demonstrates that there is no dead spot in the detection, and as another combination, the transmission / reception facing arrangement type search coil 20 is used.The inclination angle + 60 ° arrangementIn addition, the transmission and reception coaxial arrangement type search coil 30The inclination angle of -60 ° arrangementTest items that become undetectable even when combinedThe attitude of 40 isAbsent.
    [0031]
  The above demonstration testsoIn order to simplify the explanation, the needle-like specimen40Attitude ofShows the result in the direction of X, Y, Z, Z + 30 ° only, but the posture of the needle-like test object 40 is generally oriented in any direction..However, even if the needle-like test object 40 faces in any direction, the direction of the needle-like test object 40 can be indicated by the vector sum of the needle-like test objects 40 indicating the X, Y, and Z directions, respectively. Since the above description can be made, the above description can be applied to the needle-like specimen 40 oriented in any direction..
    [0032]
  FIG. 7 shows the present inventionShows a side view according to a modification of the embodiment of, Search coil20 (30)The transport machine3The whole of the needle detector 10 'configured in the reverse V shape of the katakana aboveTo explainSide viewIs.
    [0033]
  FIG. 11 shows a pair of search coils 20 (30)Search coil 20 (30) in a state of being arranged in the shape of the letter of katakana.The posture of the needle-like object 40 in theIt became a special formFour examples were illustratedTheoryIn clearAhRu.
    [0033]
  Figure 12AboveTransmission / reception facing arrangement search coil20In the case ofCross section along the transport directionIn the figure, each posture of the needle-like test object 40 isIn FIG.It corresponds.
    [0034]
  In FIG. 13, the transmitting and receiving coils 21 and 22 (31 and 32) disposed in the case 60 of the search coil 20 (30) are arranged in the shape of the letter “K” and the resinous mold 61 in the one case 60. It is a side view which concerns on the modification of the Example of this invention set as the structure which carried out the filling fixation, and carried out the penetration arrangement | positioning of the conveying machine 3 in the common tunnel 64. FIG. In this example, the transmission / reception facing search coil 20 and the coaxial search coil 30 are combined. In this case, further miniaturization is possible..
    [0035]
  【Effect of the invention】
  Explained abovelike,According to the invention of claim 1 or 3, since the metallic foreign matter is detected based on the respective reception signals when passing the transmission / reception facing arrangement type search coil and the transmission / reception coaxial arrangement type search coil, one search is performed Even if the metallic foreign matter can not be detected by the coil, the metallic foreign matter can be detected by the other search coil. Therefore, regardless of the direction of the acicular metallic foreign matter mixed in the subject, all the acicular metallic foreign matter Can be detected.
    [0036]
  According to the invention as set forth in claim 2 or 4, contamination into the subject based on the respective received signals outputted from the pair of search coils arranged with inclination angles opposite to each other with respect to the transport direction. Can detect almost any needle-like metal foreign matter regardless of the direction of the needle-like metal foreign matter mixed in the subject.
Brief Description of the Drawings
    [Fig. 1]
  Implementation of the inventionExampleNeedle detector pertaining toofIt is a side view.
    [Fig. 2]
  Likewise,Needle detectorofIt is a front view.
    [Fig. 3]
  Transmission and reception facing type search coilAn explanatory perspective view showing the configurationIt is.
    [Fig. 4]
  Figure 3A direction sectional viewIt is.
    [Fig. 5]
  A perspective view for explaining the arrangement of the transmitting coil and the receiving coil of the transmitting / receiving coaxial layout search coilIt is.
    [Fig. 6]
  B direction sectional view of FIG. 5It is.
    [Fig. 7]
  The present inventionSide view according to a modification of the embodiment ofIt is.
    [Fig. 8]
  A side view for explaining an entire configuration of a needle detector according to the prior artIt is.
    [Fig. 9]
  Explanatory drawing which shows the flow of the magnetic flux in the case where the test object of the ferromagnetic metal in the cross section A of the transmission and reception facing arrangement | positioning type | mold search coil corresponded with the direction of excitation magnetic flux.It is.
    [Fig. 10]
  Explanatory drawing showing the flow of magnetic flux in the case where the posture of the nonmagnetic metal needle-like test object in the cross section A of the search coil coincides with the transport direction P and is orthogonal to the direction of the excitation magnetic fluxIt is.
    [Fig. 11]
  A pair of search coilsIn the state of being arranged in the shape of the letter of katakanaIllustrated four cases of needle-shaped specimens ofTheoryFIG.
    [Fig. 12]
  In the case of the transmission and reception facing arrangement type search coilCross section along the transport directionFIG.
    [Fig. 13]
  A side view according to a modification of the embodiment of the present invention, which is configured to be filled and fixed in a casing by a resinous moldIt is.
  [Description of the code]
  3 Carrier
  4,64 tunnel passage
  5 Drive pulley
  6 Bearing base
  7 frames
  8 bearings
  10 Needle Detector
  20 transmit / receive facing arrangement search coil
  21, 31 Transmission coil
  22, 32 Receiving coil
  23, 33 Excitation flux
  24 flux linkage
  30 transmit / receive coaxial search coil
  40 Needle-like metal foreign body (specimen)
  41 subjects
  50, 51 control panel
  60 chassis
  61 Resin mold