KR100879035B1 - Multi-complex cable for sensing cable temperature and cable case - Google Patents

Abstract

A multi cable structure and a multi cable case are provided to reduce a cost by detecting temperature generated from multiple cables by single optical fiber. An optical fiber(4) is arranged in order to sense temperature. Cables(6) are contacted with the optical fiber in the circumference of the optical fiber and are installed for power supply. A thermal conductance filler(10) maintains layout between the optical fiber and cables and is filled in order to deliver the heat generated from the cable to the optical fiber. A band(14) surrounds the outer circumference of the thermal conductance filler and cable and is integrated in order to protect an internal configuration and prevent heating outside.

Description

MULTI-COMPLEX CABLE FOR SENSING CABLE TEMPERATURE AND CABLE CASE}

The present invention relates to a multi-cable structure equipped with an optical fiber for temperature measurement, and to a multi-cable case. More specifically, the optical fiber for temperature sensing is disposed in the center thereof, and the cable of several strands is disposed around the optical fiber for temperature sensing. The present invention relates to a multi-cable structure and a multi-cable case provided with an optical fiber for measuring a temperature so that a temperature rise of one of the cables of a plurality of strands mounted around the cable can be detected by a single optical fiber.

As is well known, power plants and factories are supplying power to a number of devices via power cables. These power cables come in various forms, from low voltage (low voltage) to high voltage (high voltage), including the type, thickness, and length of the wire.The problem is that the temperature of the wire rises and the wire covering melts, causing short circuits or fire. Can be generated. Temperature rises are short-circuited due to the current flowing above the wire's allowable or damage to the coating due to mechanical, chemical, or artificial factors, and the short-circuit causes the power cable to melt or fire.

Most fires caused by electricity in factories and houses are caused by the above phenomenon.

There are two types of high voltage cables that supply a lot of load current: direct buried directly in the ground, and ducts in which the ducts are installed in the ground. As a method of monitoring the heating state and the point of such a cable, DTS (Distribution Temperature Sensor) using optical fiber (optical cable) has been developed and commercialized worldwide. In other words, the temperature rise of the wire is monitored using this DTS.

There are two types of optical fiber, which are attached to the surface of the cable sheath during cable construction and the method of manufacturing a cable by inserting the optical fiber inside the cable sheath during cable manufacturing. While it is relatively easy to install and can be installed on existing cables, there is a disadvantage that additional work is required and expensive when laying cables. On the other hand, if the optical fiber is built in the manufacture of the power cable, the construction itself is easy, but there are many contact points, the light loss is large, and the skill of the optical fiber connection technology is required. Another disadvantage is that additional DTSs cannot be installed on existing power cables.

In addition, until now, the above two methods have to be installed on one power cable and one fiber, and thus, the conventional method has a problem in that it is economically disadvantageous and timely in operation.

Nevertheless, high-voltage cables supply power to a relatively small number of lines (strands), so there are many places where temperature management is performed using DTS even though there are disadvantages in terms of operation and economic and time disadvantages.

However, the control cable has dozens of lines (strands) laid through the ducts or cable trays, so it is not possible to install fiber optic cables in each of these dozens of cables. There is no cable temperature control. Since the cable for operation of the device is low pressure, the sheath is also thin and many wires are stacked together so that the heat cannot be easily cooled, and the ambient temperature rise, over current, damage due to vibration, damage to the mouse, damage to the mouse, and temperature increase due to electrical influences. Heat can be generated by many factors, including action. Therefore, such low voltage cables are particularly required for temperature monitoring.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described state of the art. The temperature of the various strands of the cable is measured in a state where the optical fiber for temperature sensing is disposed at the center thereof, and the multiple strands of cable are positioned around the temperature sensing optical fiber. In order to detect and integrate several strands of cables, a multi-layer cable filled with a highly conductive thermally conductive filler is used to detect the temperature rise of any one of the stranded cables in a single optical fiber. It is an object of the present invention to provide a multi-cable structure equipped with an optical fiber for temperature measurement.

In addition, another object of the present invention is to mount a plurality of low-voltage cables for operation of the device to the cable tray, to configure the top cover of the cable tray in a triangular roof shape, and to install a temperature sensing optical fiber in the inner center of the top cover The present invention provides a multi-cable case that senses the temperature of the air inside the tray and easily detects an abnormal temperature condition of the low voltage cable seated on the cable tray.

In order to achieve the above object, according to a preferred embodiment of the present invention and the optical fiber (4) disposed at the center for temperature sensing; A cable 6 arranged around the optical fiber 4 in a state where several strands are in contact with the optical fiber 4 and provided for power supply; A thermally conductive filler 10 which maintains an arrangement form between the optical fiber 4 and several cables 6 and is filled to transfer heat generated from the cable 6 to the optical fiber 4; Surrounding the outer periphery of the cable (6) and the thermally conductive filler (10), the optical fiber for temperature measurement, characterized in that the band 14 for protecting the internal configuration and preventing the heat generated to the outside is integrated Multi-cable structure is provided.

Preferably, the optical fiber 4 is provided with a multi-cable structure provided with an optical fiber for temperature measurement, characterized in that the temperature sensing region is specifically subdivided by tying up several cables 6 at regular intervals.

Preferably, the cable 6 is characterized in that the fiber 4 is arranged in the center of the cable 6 regardless of its arrangement and installation direction, and the multiple cables 6 can be bundled together. There is provided a multi-cable structure with an optical fiber for measurement.

On the other hand, the present invention and the cable tray 42 is a low voltage cable (6) for operating a plurality of devices; An upper cover 44 covered on the top of the cable tray 42 to close the top of the cable tray 42; The temperature sensing optical fiber 4 installed in the inner center of the upper cover 44 is configured to detect the temperature of the air inside the tray to remotely monitor the abnormal temperature state of the low voltage cable 6 seated on the cable tray 42. Provided is a multi-cable case, characterized in that to be easily detected in.

Preferably, the upper cover 44 is formed in a triangular roof shape is provided with a multi-cable case, characterized in that the temperature inside the tray can be collected to the inner center.

Preferably, the upper cover 44 is provided with a multi-cable case, characterized in that to prevent heat loss by applying a heat-insulating paint on its inner surface.

On the other hand, the present invention is a low-voltage cable (6) for the operation of the equipment of several strands is fixed to the fixing bracket, the side or the lower surface of the duct 46 is open; A triangular roof top cover (44) covered at the top of the duct (46) to close the top of the duct (46); The temperature sensing optical fiber 4 is configured at the inner center of the upper cover 44 so as to sense the temperature of the exothermic air from the low pressure cable 6 for operating the device attached to the duct 46 to detect the low pressure for operating the corresponding device. There is provided a multi-cable case, characterized in that the temperature state of the cable 6 can be easily detected remotely.

The multi-cable structure and the multi-cable case provided with the optical fiber for measuring the temperature according to the present invention are economically very advantageous because it can detect the temperature generated from the cables of several strands through a single optical fiber, In this case, it is very economically advantageous to detect the air temperature inside the tray and determine whether there is an abnormality. In addition, there is an advantage that the safety is very high because it is possible to determine whether the abnormal cable temperature abnormality by reflecting the temperature change over distance.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to drawings.

1 is a cross-sectional view showing a multi-cable structure provided with an optical fiber for temperature measurement according to an embodiment of the present invention.

Referring to this, the multi-cable 2 with the optical fiber for temperature measurement according to an embodiment of the present invention is arranged in the center of the optical fiber for temperature sensing, and the cable of several strands around the optical fiber for temperature sensing In order to detect the cable temperature of the various strands and to integrate the multiple strands of cable, the temperature of any one of the multiple strands of cables mounted around the cable is constructed by constructing a multi-cable filled with a high thermal conductivity filler. It is a cable that can detect the rise with a single optical fiber.

More specifically, the multi-cable 2 with the optical fiber for temperature measurement according to an embodiment of the present invention is provided with an optical fiber 4 arranged at the center thereof for temperature sensing, and the optical fiber 4 A plurality of cables arranged in contact with the circumference are provided.

In addition, a thermally conductive filler 10 is provided to maintain the arrangement between the optical fiber 4 and the cable 6 and to transfer heat generated from the cable 6 to the optical fiber 4. The thermally conductive filler 10 is made of EP30AN material having excellent thermal conductivity and electrical insulation.

In addition, by surrounding the outer periphery of the thermally conductive filler (10), by surrounding the optical fiber (4) and the cable (6) to protect the internal configuration, the band 14 for preventing the heat of the inside is discharged to the outside ) Is composed of integrated cable structure.

The multi-cable 2 with the optical fiber for temperature measurement according to an embodiment of the present invention is a single optical fiber (4) to the cable 6 of several strands at a suitable position (for example, 10 meters or 20 meters apart) Tied together, and sensing the temperature of the cable group in the DTS equipment due to the temperature sensing through the optical fiber (4) can be detected and confirmed.

In this case, the cables 6 are arranged to have the same length of the linear intervals for the optical fiber 4, respectively, to prevent errors due to different lengths when sensing the temperature for the plurality of cables (6).

That is, the cables 6 are each configured to have the same length of the straight line spacing with respect to the optical fiber 4, even if the cable 6 generates an elevated temperature value is transmitted through the optical fiber 4 Since the temperature value transmits the temperature value higher than the normal temperature value, it is possible to accurately transmit the temperature value.

Moreover, all the distances with the other cable 6 which adjoin the said cable 6 are arrange | positioned uniformly.

On the other hand, since the thermally conductive filler 10 is a shock-resistant filler, when it is necessary to dismantle the multi-cable (2) equipped with the optical fiber for temperature measurement according to an embodiment of the present invention can be easily dismantled optical fiber (4) ) And the cable 6 can be easily separated.

In addition, the thermally conductive filler 10 is a liquid before it is cured, so that it penetrates into minute gaps and attaches the cables 6 and the optical fiber 4 to a minimum width in a range that maintains mechanical strength. It is preferable to apply thinly and to attach.

On the other hand, the multi-cable 2 with the optical fiber for measuring the temperature according to an embodiment of the present invention is installed vertically or buried underground, or installed in the duct, regardless of the installation place and its installation form Irrespective of this, it is applicable to all cables which are bundled together adjacent to each other.

2 is a block diagram showing a temperature measurement system including a multi-cable with an optical fiber for temperature measurement according to an embodiment of the present invention, Figure 4 is a temperature measuring system according to an embodiment of the present invention It is a graph showing the temperature conversion state detected through.

Referring to this, the temperature measuring system 20 including a multi-cable with an optical fiber for measuring the temperature according to an embodiment of the present invention is the optical fiber (the temperature transmitted from the several strands of cable 6 embedded therein) An optical fiber sensor 16 for sensing a temperature transmitted from the first to Nth multi-cables 2a to 2n for transmitting through 4); An A / D converter 18 for converting the temperature data sensed by the optical fiber sensor 16 into digital data; A DTS (22) for determining whether or not the temperature of each of the first to Nth multi-cables (2a to 2n) rises through the temperature data received from the A / D converter (18); The reference temperature data for each cable is stored, and the PC 30 compares the temperature data received from the DTS 22 with the reference temperature data and displays the comparison value on the screen.

Therefore, the temperature measurement system 20 including the multi-cable with the optical fiber for temperature measurement according to an embodiment of the present invention is the temperature signal transmitted from the first to N-th multi-cable (2a ~ 2n) The optical fiber sensor 16 is converted into analog temperature data, and the temperature data is converted into digital temperature data by the A / D converter 18.

Thereafter, the DTS 22 transmits the temperature data applied through the A / D converter 18 to the PC 30, and stores the reference data stored in a memory (not shown) included in the PC 30. It is determined whether or not the temperature abnormality, and outputs the temperature data to the monitor as shown in FIG.

In this case, as shown in FIG. 4, the temperature change data of each of the first to Nth multi-cables 2a to 2n is received from the DTS 22 and displayed on the screen. At this time, since the optical fiber 4 is a fiber having a resistance of zero, almost no temperature loss occurs when the conducted temperature data is transmitted, thereby outputting a graph screen as shown in FIG. 4.

3A and 3B are cross-sectional views illustrating a multi-cable case according to another exemplary embodiment of the present invention.

Referring to this, the multi-cable case 40 according to another embodiment of the present invention seats a plurality of low-voltage cables for operating the device in the cable tray, the top cover of the cable tray is configured in a triangular roof shape, By installing the optical fiber for temperature sensing at the inner center of the top cover, it detects the temperature of the air inside the tray and makes it possible to easily detect the abnormal temperature condition of the low voltage cable seated on the cable tray.

More specifically, referring to FIG. 3A, a multi-cable case 40 according to another embodiment of the present invention includes a cable tray 42 on which a plurality of low voltage cables 6 for operating a device are mounted; An upper cover 44 for closing an upper portion of the cable tray 42; The temperature sensing optical fiber 4 installed in the inner center of the upper cover 44 is configured to detect the temperature of the air inside the tray to remotely monitor the abnormal temperature state of the low voltage cable 6 seated on the cable tray 42. It is configured to be easily detected from.

At this time, the upper cover 44 is made of a triangular roof shape so that the temperature inside the tray can be collected to the inner center. In addition, each cable 6 may be arranged in a regular or irregular manner in the cable tray 42, the cable 6 to the predetermined portion of the wall of the cable tray 42 by a separate fixing bracket (not shown) It is also possible to be fixed. That is, the present invention is universally applicable to any fixing method or arrangement method for the cable 6 inside the cable tray 42.

Therefore, the multi-cable case 40 according to another embodiment of the present invention uses the temperature generated from the plurality of cables 6 seated on the cable tray 42 through the convection of air in the case 40. Sensing optical fiber 4 can be detected, it is possible to determine the deterioration state of the cable (6) by comparing the temperature data during normal temperature data.

At this time, if the upper cover 44 is made of a material having excellent thermal conductivity, such as a metal material, by applying a separate insulating paint on the inner surface of the upper cover 44, the cable installed in the cable tray 42 ( The heat generated from 6) to the temperature sensing optical fiber 4 installed on the inner top of the upper cover 44 without heat loss is easily transmitted through the natural convection phenomenon using air as a medium.

In addition, as shown in FIG. 3A, the cable tray 42 having its lower surface or side surface closed is configured, and the cable 6 is provided inside the cable tray 42, but as shown in FIG. 3B. The duct 46 provided in the longitudinal direction along the wall surface of a building is comprised, and it can also be comprised so that the cable 6 of many strands may be attached to the duct 46.

The duct 46 made of such a structure has a structure in which the side or lower surface is open or partially closed, and is also surrounded by a separate mesh. According to the present invention, even if a part of the side surface or the lower surface of the duct 46 is opened as shown in FIG. 3B, a triangular roof-shaped upper cover 44 is attached to the upper surface thereof, and a temperature is formed in the inner center of the upper cover 44. Attach the sensing optical fiber (4).

Then, when the temperature of the cable 6 rises, the air around the cable 6 rises, and the air warmed by the convection phenomenon rises in the direction of the upper cover 44. ) Senses and delivers the temperature value.

On the other hand, the multi-cable structure and the multi-cable case provided with the optical fiber for measuring the temperature according to an embodiment of the present invention is not limited to the above embodiment only, various modifications can be made within the scope not departing from the technical gist. Do.

1 is a cross-sectional view showing a cross-section of a multi-cable for multi-core temperature measurement according to an embodiment of the present invention;

Figure 2 is a block diagram showing a multi-cable temperature measuring apparatus for multi-core temperature measurement according to an embodiment of the present invention,

Figure 3a, 3b is a cross-sectional view showing the cable laying box for multi-core temperature measurement according to another embodiment of the present invention,

4 is a graph showing a temperature conversion state detected by the multi-core temperature measuring apparatus according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

2: multi-cable with optical fiber for temperature measurement,

4: optical fiber, 6: cable,

10: thermally conductive filler, 14: band,

22: DTS, 30: PC,

34: control unit, 40: multi-cable case,

42: cable tray, 44: top cover,

46: Duct.

Claims (7)

An optical fiber 4 arranged at its center for temperature sensing; A cable 6 arranged around the optical fiber 4 in a state where several strands are in contact with the optical fiber 4 and provided for power supply; A thermally conductive filler 10 which maintains an arrangement form between the optical fiber 4 and several cables 6 and is filled to transfer heat generated from the cable 6 to the optical fiber 4; Surrounding the outer periphery of the cable (6) and the thermally conductive filler (10), the optical fiber for temperature measurement, characterized in that the band 14 for protecting the internal configuration and preventing the heat generated to the outside is integrated Multi-cable structure. 2. The multi-cable structure according to claim 1, wherein the optical fiber (4) is specifically subdivided in the temperature sensing area by tying up several cables (6) at regular intervals. 2. The cable (6) according to claim 1, characterized in that the cable (6) can be arranged in the center of the fiber (4) and bundles of cables (6) can be bundled regardless of its arrangement and installation direction. Multi-cable structure with optical fiber for temperature measurement. A cable tray 42 on which a plurality of low voltage cables 6 for operating the apparatus are seated; An upper cover 44 covered on the top of the cable tray 42 to close the top of the cable tray 42; The temperature sensing optical fiber 4 installed in the inner center of the upper cover 44 is configured to detect the temperature of the air inside the tray to remotely monitor the abnormal temperature state of the low voltage cable 6 seated on the cable tray 42. Multi-cable case, characterized in that the easy to detect from. The multi-cable case according to claim 4, wherein the upper cover (44) has a triangular roof shape so that the temperature inside the tray can be gathered to the inner center. 5. The multi-cable case according to claim 4, wherein the upper cover (44) prevents heat loss by applying heat-insulating paint on its inner surface. A plurality of strands of the low voltage cable 6 for operating the apparatus are fixed with a fixing bracket, and a duct 46 whose side or bottom surface is open; A triangular roof top cover (44) covered at the top of the duct (46) to close the top of the duct (46); The temperature sensing optical fiber 4 is configured at the inner center of the upper cover 44 so as to sense the temperature of the exothermic air from the low pressure cable 6 for operating the device attached to the duct 46 to detect the low pressure for operating the corresponding device. Multi-cable case, characterized in that the temperature of the cable (6) can be easily detected at a remote location.

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