JPH07322459A - Method for determining isolation distance of cable laid in tough - Google Patents

Abstract

PURPOSE:To provide a method for determining the isolation distance of a cable laid in a tough, which can seek the isolation distances of the cable from both sides of a trough without making the sensor of an in-trough cable position orienter scan it longitudinally along the side of the trough. CONSTITUTION:The isolation distances of cables 5a, 5b, and 5c from the bottom of a trough are detected, ranging over between both side faces in width direction of the trough by means of a cable position orienter, and from the obtained isolation distance data, the distances 11 and 12 from both sides of the trough in the position where the isolation distances of the cables show the minimum peaks are sought. Next, the differences 11-(D/2) and 12-(D/2) between each distance 11 and 12 and the radio D/2 of the cables are computed as the isolation distances L1 and L2 from both side faces of cables.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is useful for locating the position of a cable laid in a trough by a position locating device to which an electromagnetic induction method is applied. The present invention relates to a method of calculating a separation distance.

[0002]

2. Description of the Related Art Generally, an ultra high pressure OF laid in a cave
The cables and the like are housed in a disaster prevention trough made of flame-retardant reinforced plastic, etc., in a sand-filled manner in order to prevent the spread of fire due to an external fire and the ignition due to a ground fault to other cables. By the way, a cable laid in such a trough (usually a snake laying) moves vertically or laterally when it thermally expands due to an increase in load current, and as a result, the cable collides with the inner surface of the trough and the cable itself. May cause damage to the trough or damage the trough.

Conventionally, in order to prevent such an accident, an operator periodically opens the trough lid to inspect the inside, and visually confirms the separation distance between the cable and the inner surface of the trough, and it is necessary. Measures such as adjusting the cable laying position are taken accordingly. However, such a visual inspection method has a problem in that the lid of the trough must be opened each time the inspection is performed, resulting in low workability.

Therefore, the inventors of the present invention have conducted extensive studies to solve such a problem, and as a result, have developed a cable position locating device in a trough capable of locating a cable laying position without opening the trough lid. It was developed and proposed earlier (JP-A-6-34308). That is, this device includes a sensor unit, a signal processing unit, a microcomputer, an operation unit,
And the output part, eddy current is generated in the metal layer such as the aluminum jacket of the cable from the outer surface of the trough, and the magnetism generated by the eddy current is detected near the outer surface of the trough. It is configured to output the converted distance to the inner surface of the trough.

Then, in locating the position of the cable laid in the trough by such a position locating device, as shown in FIG. 4, the sensor portion 1 is attached to the side surfaces 2a, 2b of the trough 2 (the cave wall 3). Side and passage-side side surfaces) in the longitudinal direction to detect the separation distance from the cable 4 from both side surfaces of the trough 2.

[0006]

However, in such a cable position locating method, it is easy to scan the sensor portion 1 on the trough side surface 2b on the passage 4 side, but the trough side surface 2b on the cavern wall 3 side. Since the distance between the wall 2a and the wall surface is narrow, it is difficult to insert and scan the sensor unit 1, and therefore the trough side surface 2b on the side of the passage 4 is formed.
Although it is easy to detect the separation distance of the cable 5 from the cable, it is difficult to detect the separation distance of the cable 5 from the trough side surface 2a on the side of the cave wall 3.

The present invention has been made in order to solve such a problem, and determines the distance of the cable from both sides of the trough on the passage side and the cave wall side by the sensor section of the cable position locating device in the trough. An object of the present invention is to provide a method for calculating the separation distance of a cable installed in a trough that can be obtained without scanning along the side surface of the trough in the length direction.

[0008]

SUMMARY OF THE INVENTION The present invention is a method for calculating the separation distance of a cable laid inside a trough from the side surface of the trough. The separation distance of the cable is detected across the widthwise ends of the trough, and from the obtained separation distance data, the distance 1 from the trough side surface at the position where the minimum separation distance of the cable is detected is obtained.
Next, the difference l- (D / 2) between the distance 1 and the previously obtained radius D / 2 of the cable is calculated as the distance of the cable from the side surface of the trough.

The cable position locator applying the electromagnetic induction method used in the present invention means a metal layer of a cable (for example, a metal shielding layer made of aluminum or the like) attached to the trough from near the outer surface of the trough. Magnetizing means for generating an eddy current in the magnet, a magnetism detecting means for detecting magnetism generated by the eddy current near the outer surface of the trough, and an output signal of the magnetism detecting means corresponding to a separation distance between the cable and the inner surface of the trough. Signal processing means for converting to
An output means for outputting the output signal of the signal processing means as separation distance information, generating an eddy current in the metal layer of the cable from the vicinity of the outer surface of the trough, and detecting the magnetism generated by the eddy current in the vicinity of the outer surface of the trough; It is configured to convert the magnitude of the detection signal into the separation distance between the cable and the inner surface of the trough and output the separation distance. In the present invention, it is particularly preferable to use a device that is provided with means for detecting and outputting the distance from the trough end of the distance detection position as well as the distance.

[0010]

In the method of the present invention, the cable position locating device to which the electromagnetic induction method is applied as described above is used to detect the distance of the cable from the top or bottom of the trough across the widthwise ends of the trough. The distance 1 from the trough side surface at the position where the minimum cable separation distance is detected is obtained from the separation distance data. Then, the distance l from the trough side surface at the position where this separation distance has detected the minimum value is
The distance between the center of the cable and the side surface of the trough is almost the same. Therefore, here, if the difference between the obtained distance 1 and the previously obtained radius D / 2 of the cable is calculated, the value is almost equal to the closest distance between the cable and the side surface of the trough. Therefore, the distance from the trough side surface of the cable can be obtained from this.

[0011]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 schematically shows a cable buried in sand inside a trough.
A, 5b, and 5c are laid inside the trough 6 in a stacked state.

In this embodiment, first of all, in the width direction, the sensor portion 7 of the cable position locator applying the electromagnetic induction method is pressed against the bottom surface of the trough 6 on which the cable is laid in this way from one end thereof. Scan. The cable position locator used here is described in JP-A-6-34308, and when the sensor unit is pressed against the bottom surface of the trough and scanned in the width direction, the moving distance of the sensor unit is reduced. X and the distance between the cable at the position corresponding to the moving distance and the bottom surface of the trough, that is, the separation distance Y of the cable from the bottom surface of the trough are measured. Therefore, the sensor unit 7 of such a cable position locator
By scanning the bottom surface of the trough 6 in the width direction from one end thereof, the measurement data of the cable separation distance Y with respect to the movement distance X of the sensor unit (that is, the distance from one end of the trough 6) over the entire width of the trough 6 can be obtained. Obtainable. Fig. 2 is a graph showing the results of the measurement performed in this way. The two cables 5a and 5b close to the bottom of the trough 6 are shown.
A separation curve is obtained which has a minimum peak at each position corresponding to.

Next, the following arithmetic processing is added based on the measurement data thus obtained. That is, as shown in the flow chart of FIG. 3, first, the outer diameter D of the cable is input to the arithmetic unit in step I, and in step II,
From the measurement data of the cable separation distance Y with respect to the sensor portion movement distance X, the distance l ₁ from the same-side trough end at the position where the cable separation distance Y shows the minimum peak on the measurement start point side is obtained. In order to obtain this distance l ₁ , the minimum value of the cable separation distance Y is searched while comparing the measured values before and after, and the corresponding sensor unit moving distance X can be obtained. Then, this distance l ₁ is
It corresponds to the distance from the center of a and the one side surface 6a of the trough 6. Accordingly, then in step III, a distance between l _1, the difference between the radius D / 2 of the cable l ₁ - by determining (D / 2), distance from the one side surface 6a of the trough 6 of the cable 5a L You can ask for _one . Similarly, cable 5b
For the above, the distance l ₂ from the same-side trough end at the position where the cable separation distance Y shows the minimum peak on the measurement end point side is obtained from the measurement data of the cable separation distance Y with respect to the sensor portion movement distance X, and this distance is calculated. l ₂ and cable radius D / 2
By calculating the difference l ₂ − (D / 2) from
A separation distance L ₂ of b from the trough side surface 6b can be obtained.

Actually, since the side wall of the trough 6 has a thickness, it is desirable to correct the calculated value by such a thickness.

As described above, according to this embodiment, by measuring the separation distance of the cable from the trough bottom surface, the separation distance of the cable laid in the trough from both sides of the trough can be easily known. Therefore, the position locating work of the cable installed in the trough by the cable locating device to which the electromagnetic induction method is applied becomes easy, and the workability of the cable inspection can be greatly improved.

In the above embodiment, the method of calculating the distance from the bottom surface of the trough and calculating the distance from the side surface of the trough has been exemplified. It is also possible to calculate the separation distance from the side surface of the trough. The data to be obtained may be appropriately selected depending on the number of cables and the laying condition.

[0018]

As described above, according to the method of the present invention, the cable position locating device applying the electromagnetic induction method detects the separation distance of the cable from the top or bottom of the trough across the widthwise ends of the trough. From the obtained separation distance data, a distance l from one end of the trough at the position where the minimum separation distance of the cable is detected is obtained, and then this distance 1 and the previously obtained radius D / 2 of the cable are obtained. Since the difference L- (D / 2) is calculated as the distance of the cable from the trough side surface on the trough end side, the sensor portion of the cable position locating device in the trough is not allowed to scan along the trough side surface in the longitudinal direction. In both cases, it is possible to easily know the separation distance of the cable from both sides of the trough on the passage side and the cave side. Therefore, the position locating work of the cable installed in the trough by the cable locating device to which the electromagnetic induction method is applied becomes easy, and the workability of the cable inspection can be improved.

[Brief description of drawings]

FIG. 1 is a diagram illustrating a method for obtaining cable separation distance data according to an embodiment of the present invention.

FIG. 2 is a graph showing cable separation distance data obtained in the example.

FIG. 3 is a flowchart showing a procedure for calculating a separation distance between both side surfaces of the trough and the cable from the separation distance data obtained in the embodiment.

FIG. 4 is a diagram schematically showing a conventional method for locating a cable in a trough.

[Explanation of symbols]

 5a, 5b, 5c ……… Cable 6 ……… Trough 7 ……… Sensor part of cable position locator

Claims (1)

[Claims] 1. A method of calculating a separation distance from a side surface of a trough of a cable laid inside a trough, wherein a separation distance of the cable from a top surface or a bottom surface of the trough is determined by a cable position locator applying an electromagnetic induction method. Detected across both ends of the direction, from the obtained separation distance data,
The distance l from one end of the trough side at the position where the minimum separation distance of the cable is detected is obtained, and then the difference l− between this distance l and the previously obtained radius D / 2 of the cable is obtained.
(D / 2) is calculated as a separation distance of the cable from the side surface of the trough, and a separation distance calculation method for a cable installed in a trough.