JP5198100B2 - Method and apparatus for measuring displacement of superconducting magnet position of superconducting magnetic levitation vehicle - Google Patents

Description

  The present invention relates to a superconducting magnet position displacement amount measuring method and apparatus for measuring the displacement amount of a superconducting magnet mounted on a carriage of a superconducting magnetic levitation vehicle at a certain point during traveling in a superconducting magnetic levitation railway. Is.

FIG. 3 is a schematic diagram of a conventional superconducting magnetic levitation railway.
In this figure, 100 is a track, 101 is both side walls, 102 is a ground coil for propulsion / levitation / guide, 103 is a superconducting magnet, 104 is a cryostat, 105 is a carriage, and 106 is a vehicle body (Patent Document 1 below).
Conventionally, in a superconducting magnetic levitation railway, it is not easy to measure the displacement amount of the superconducting magnet 103 mounted on the carriage 105 of the superconducting magnetic levitation vehicle. Although it is possible to measure the surface of the cryostat 104 without contact from the ground side by installing a laser displacement meter in the track 100, the ground coil 102 for propulsion, levitation, and guidance in the track 100 is used for the lateral displacement. Measurement is impossible unless removed. Even if the surface of the cryostat 104 can be measured, there is no guarantee that the positional relationship with the internal superconducting magnet 103 is as designed.
JP-A-5-22809

As described above, conventionally, it has been impossible to measure the amount of displacement of a superconducting magnet of a superconducting magnetic levitation vehicle in a superconducting magnetic levitation railway.
SUMMARY OF THE INVENTION An object of the present invention is to provide a method and apparatus for measuring the amount of displacement of a superconducting magnet levitation vehicle in a superconducting magnetic levitation vehicle that can measure the amount of displacement of the superconducting magnet levitation vehicle.

In order to achieve the above object, the present invention provides
[1] In a method for measuring the displacement of a superconducting magnet of a superconducting magnetically levitated vehicle, a reference search coil that is attached in close contact with the side wall on both sides of a guideway of a superconducting magnetically levitated railway, and the reference coil A search coil consisting of a correction search coil that is attached to a position away from the side wall by a certain distance from the search coil is arranged, and is generated by a superconducting magnet mounted on a superconducting magnetic levitation vehicle that passes through the guideway. An induced voltage detected by the search coil is calculated by an arithmetic processing unit, and a displacement amount of a superconducting magnet position of the superconducting magnetic levitation vehicle is measured based on an arithmetic value of the arithmetic processing unit. .

[2] In the method for measuring a displacement amount of a superconducting magnet position of the superconducting magnetic levitation vehicle described in [1] above, the position of the superconducting magnet is a position in the left-right direction of the superconducting magnet.
[3] In the method for measuring a displacement amount of a superconducting magnet position of the superconducting magnetic levitation vehicle described in [1] above, the position of the superconducting magnet is a vertical position of the superconducting magnet.

[4] In the method of measuring a displacement amount of a superconducting magnet position of a superconducting magnetic levitation vehicle according to [1], [2] or [3], the position of the carriage is estimated based on the displacement amount of the position of the superconducting magnet. It is characterized by that.
[5] A reference search coil that is disposed in close contact with the side walls of the superconducting magnetic levitation railway in the apparatus for measuring the amount of displacement of the superconducting magnet levitation type vehicle in the superconducting magnetic levitation type vehicle. And a search coil consisting of a correction search coil that is mounted at a position away from the side wall by a certain distance from the reference search coil, and a superconducting magnet mounted on a superconducting magnetic levitation vehicle passing through the guideway. resulting, wherein an arithmetic processing unit that calculates an induced voltage detected by the search coil, on the basis of the calculation result by the arithmetic processing unit, a displacement amount of the position of the superconducting magnet mounted on the superconducting magnetic levitation vehicle It is characterized by measuring.

[6] In the apparatus for measuring the amount of displacement of the superconducting magnet position of the superconducting magnetic levitation vehicle described in [5] above, the position of the superconducting magnet is a position in the left-right direction of the superconducting magnet.
[7] In the apparatus for measuring a displacement amount of a superconducting magnet position of a superconducting magnetic levitation vehicle described in [5] above, the position of the superconducting magnet is a vertical position of the superconducting magnet.

[ 8 ] The apparatus for measuring a displacement amount of a superconducting magnet position of a superconducting magnetic levitation vehicle according to [5] to [ 7 ], wherein the position of the carriage is estimated based on the displacement amount of the position of the superconducting magnet. To do.

  ADVANTAGE OF THE INVENTION According to this invention, the displacement amount of the superconducting magnet position of a superconducting magnetic levitation type vehicle can be measured simply and accurately.

The method of measuring the amount of displacement of the superconducting magnet of the superconducting magnetic levitation vehicle according to the present invention includes a reference search coil attached in close contact with the side wall on both sides of the guideway of the superconducting magnetic levitation railway, and the reference coil. A search coil consisting of a correction search coil that is attached to a position away from the side wall by a certain distance from the search coil is arranged, and is generated by a superconducting magnet mounted on a superconducting magnetic levitation vehicle that passes through the guideway. An induced voltage detected by the search coil is calculated by an arithmetic processing unit, and a displacement amount of the position of the superconducting magnet of the superconducting magnetic levitation vehicle is measured based on an arithmetic value of the arithmetic processing unit.

Hereinafter, embodiments of the present invention will be described in detail.
FIG. 1 is a schematic diagram of an apparatus for measuring the amount of displacement of a superconducting magnet in a lateral direction of a superconducting magnet levitation vehicle according to an embodiment of the present invention.
In this figure, 1 is a guideway of a superconducting magnetic levitation railway, 2 is a first side wall disposed on one side of the guideway 1, and 3 is a reference side disposed on the back side of the first side wall 2. A search coil, 4 is a correction search coil disposed on the back side of the first side wall 2, 5 is a second side wall disposed on the other side of the guideway 1, and 6 is a second side wall 5 thereof. 7 is a reference search coil disposed on the back side of the second side wall 5, 7 is a search coil for correction disposed on the back side of the second side wall 5, and 8 is a superconducting magnet that travels on the guide way 1 with the superconducting magnet 9 mounted on the carriage 10. A levitated vehicle 11 is an arithmetic processing unit that calculates an induced voltage when the superconducting magnet 9 passes, which is detected by the reference search coils 3 and 6 and the correction search coils 4 and 7.

Thus, the search coils 3, 4, 6, 7 are arranged on the back side of the first side wall 2 and the second side wall 5.
Then, depending on the positional relationship between the superconducting magnet 9 and the search coils 3, 4, 6, 7, the value of the induced voltage generated in the search coils 3, 4, 6, 7 when the superconducting magnet 9 passes is changed. That is, the value of the induced voltage changes in inverse proportion to the distance between the superconducting magnet 9 and the search coils 3, 4, 6, and 7.

Here, the search coils 3, 4, 6, and 7 will be described.
(1) Four search coils 3, 4, 6, and 7 having the same specifications are prepared.
(2) Two pieces are attached to the back side of the side walls 2 and 5 on both sides of the guideway 1 so that the vertical position (vertical position) is the vertical center passing position (vertical position) of the superconducting magnet 9. .

(3) The search coil on each side includes a reference search coil that is attached in close contact with the side wall, and a correction search coil that is attached while being shifted from the side wall by a certain distance from the reference search coil.
(4) The half of the output difference between the reference search coils on both sides is an amount corresponding to the lateral displacement of the superconducting magnet 9. This amount can be converted into a displacement amount of the superconducting magnet 9 from the distance per unit output difference obtained from the output difference between the reference search coil and the correction search coil on both sides.

Here, the output of the reference search coil 3 is E ₁₁ , the output of the correction search coil 4 is E ₁₂ , the output of the reference search coil 6 is E ₂₁ , the output of the correction search coil 7 is E ₂₂ , and the reference search The distance between the coil 3 and the correction search coil 4 is d ₁ , and the distance between the reference search coil 6 and the correction search coil 7 is d ₂ , referring to FIG. When the lateral displacement D of the superconducting magnet 9 in the direction of the side wall 5 is calculated,
The search coil output can be assumed to be proportional to the left-right distance in a range that is not so far away from the vicinity of the reference search coil position (about 10 mm).
_{D = (E 21 -E 11)} / 2 × _{[d 1 / (E 11 -E 12} ) + d 2 / (E 21 -E 22) ] / 2 are determined.

According to the method of the present invention, the vehicle passing speed need not be considered in the calculation. The vertical displacement of the superconducting magnet 9 need not be considered in the calculation. The induced voltage detected by the search coil due to the propulsion coil current need not be considered in the calculation.
Next, the displacement amount measurement of the position in the vertical direction of the superconducting magnet of the superconducting magnetic levitation vehicle will be described.

FIG. 2 is a schematic diagram of an apparatus for measuring the vertical displacement of a superconducting magnet of a superconducting magnetic levitation vehicle showing an embodiment of the present invention.
In this figure, 12 is a first reference search coil, 13 is a second reference search coil, and 14 is a correction search coil.
Here, the output of the first reference search coil 12 is E ₁ , the output of the second reference search coil 13 is E ₂ , the output of the correction search coil 14 is E ₃ , and the first reference search coil 12 is output. If the distance between the center of the second reference search coil 13 and the center of the second reference search coil 13 and the correction search coil 14 is d, the reference height in this case (balance displacement: indicated by a chain line) ) In the vicinity, E ₂ -E ₁ and E ₃ -E ₂ can be assumed to be proportional to the distance Z between the center of the superconducting magnet and the reference height.
Z = (E ₂ −E ₁ ) × d / [(E ₃ −E ₂ ) − (E ₂ −E ₁ )]
Can be obtained.

According to the present invention, the superconducting magnetic levitation type is simply and accurately based on the knowledge that the lateral displacement or vertical displacement of the superconducting magnet of the superconducting magnetic levitation vehicle is related to the measured value of the induced voltage of the search coil on the ground coil side. The displacement of the superconducting magnet of the vehicle could be measured.
In addition, this invention is not limited to the said Example, Based on the meaning of this invention, a various deformation | transformation is possible and these are not excluded from the scope of the present invention.

  The method and apparatus for measuring the displacement of the superconducting magnet levitation vehicle of the present invention can be used as a tool for measuring the displacement of the superconducting magnet levitation of a superconducting magnetic levitation vehicle that can be measured easily and accurately. Is possible.

It is a schematic diagram of the measuring apparatus of the displacement amount of the position of the left-right direction of the superconducting magnet of the superconducting magnetic levitation type vehicle which shows the Example of this invention. It is a schematic diagram of the measuring device of the amount of vertical displacement of the superconducting magnet of the superconducting magnetic levitation vehicle showing an embodiment of the present invention. It is a schematic diagram of a conventional superconducting magnetic levitation railway.

DESCRIPTION OF SYMBOLS 1 Guide way of superconducting magnetic levitation type railway 2 First side wall 3, 6 Reference search coil 4, 7 Correction search coil 5 Second side wall 8 Superconducting magnetic levitation vehicle 9 Superconducting magnet 10 Cart 11 Arithmetic processing unit 12 1 reference search coil 13 second reference search coil 14 correction search coil

Claims (8)

(A) A reference search coil that is attached in close contact with the side wall on both sides of the guideway of the superconducting magnetic levitation railway, and shifted to a position away from the side wall by a certain distance from the reference search coil. Place a search coil consisting of a correction search coil to be attached ,
(B) An induced voltage detected by the search coil generated by a superconducting magnet mounted on a superconducting magnetic levitation vehicle passing through the guideway is calculated by an arithmetic processing unit;
(C) Measuring the displacement amount of the superconducting magnet levitation vehicle in the superconducting magnetic levitation vehicle, wherein the displacement amount of the superconducting magnet levitation vehicle in the superconducting magnetic levitation vehicle is measured based on the calculated value in the arithmetic processing unit. Method.   2. The method of measuring a displacement amount of a superconducting magnet position of a superconducting magnetic levitation vehicle according to claim 1, wherein the position of the superconducting magnet is a position in the left-right direction of the superconducting magnet. A method of measuring the displacement of the superconducting magnet position.   2. The method of measuring a displacement amount of a superconducting magnet position of a superconducting magnetic levitation vehicle according to claim 1, wherein the position of the superconducting magnet is a vertical position of the superconducting magnet. A method of measuring the displacement of the superconducting magnet position.   4. A method for measuring a displacement amount of a superconducting magnet position of a superconducting magnetic levitation vehicle according to claim 1, wherein the position of the carriage is estimated based on the displacement amount of the position of the superconducting magnet. Of measuring the amount of displacement of the superconducting magnet position of a vehicle. (A) a reference search coil that is disposed in close contact with the side wall on both sides of the guideway of the superconducting magnetic levitation railway, and a position away from the side wall by a certain distance from the reference search coil A search coil composed of a correction search coil that is shifted to
(B) an arithmetic processing unit for calculating an induced voltage detected by the search coil generated by a superconducting magnet mounted on a superconducting magnetic levitation vehicle passing through the guideway;
(C) Based on the calculation result by the processing unit, the displacement of the superconducting magnet position of the superconducting magnetically levitated vehicle, characterized by measuring the displacement amount of the position of the mounted superconducting magnet to the superconducting magnetic levitation vehicle Quantity measuring device.   6. The apparatus for measuring a displacement amount of a superconducting magnet position of a superconducting magnetic levitation vehicle according to claim 5, wherein the position of the superconducting magnet is a horizontal position of the superconducting magnet. Measuring device for displacement of superconducting magnet position.   6. The apparatus for measuring a displacement amount of a superconducting magnet position of a superconducting magnetic levitation vehicle according to claim 5, wherein the position of the superconducting magnet is a vertical position of the superconducting magnet. Measuring device for displacement of superconducting magnet position. In displacement of the measuring device of the superconducting magnet position of the superconducting magnetically levitated vehicle of claims 5 7, wherein said superconducting magnetic levitation vehicle and estimates the carriage position based on the displacement amount of the position of the superconducting magnet Measuring device for displacement of superconducting magnet position.

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