JPH088432Y2 - Temperature sensor - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial field of application> The present invention utilizes various temperature detections, for example, abnormal high temperatures due to fire, etc., and changes in optical fiber transmission characteristics (loss) due to the action of external force (load). Then, the present invention relates to a temperature detection sensor for detecting the temperature.

<Prior Art> Conventional temperature detection sensors are generally electric (electronic)
Most of them are assembled using parts.

<Problems to be Solved by the Invention> However, in such a conventional electric sensor, (1) the sensor section is expensive, and (2) complicated wiring between parts is required. , (3) It is difficult to reduce the size of the entire sensor, especially the sensor part. (4) The number of monitoring points is limited during use, and the device must be a centralized type. (5) Electrical from the surroundings There are various problems such as being easily affected by the operation, which may cause malfunction, and (6) maintenance such as regular inspection is required.

The present invention has been made in view of such a conventional situation.

<Means for Solving the Problems> A feature of the present invention is that it is composed of a substantially U-shaped metal clip 1, which is attached to an optical fiber F of an optical fiber line, and each of the extended clips. Near the free end of the piece, load applying means P ₁ having sandwiching portions 1a, 1b for applying a load by the elastic force in the closing direction to the optical fiber F, and each clip piece of the metal clip 1 are provided. It is provided between the free ends of the clip and maintains the open shape between the two free ends against the elastic force of each clip piece by its self-shape holding function below a specific temperature such as melting point. And a trigger material 2 that can be reshaped repeatedly, and below the specific temperature, with respect to the optical fiber F,
While maintaining the load applying means P ₁ in the non-loaded state, when the ambient temperature rises above the specific temperature, the trigger material 2 melts or softens, and the load applying means P ₁
The temperature detection sensor is capable of detecting the abnormality of the optical fiber line by realizing the load state on the optical fiber F.

<Operation> Load applying means P _{1 including} such a metal clip ₁
When the ambient temperature rises due to the combination of the trigger material 2 and the trigger material 2, the trigger material 2 melts or softens, and the sandwiching portions 1a and 1b of the load applying means P ₁ apply a load to the optical fiber F of the optical fiber line. Therefore, the transmission characteristic of the optical fiber F changes.

Therefore, from this change, it is possible to detect the change in temperature, the position thereof, and the change amount (degree).

<Embodiment> FIGS. 1A and 1B show an embodiment of a temperature detecting sensor according to the present invention. This temperature sensor C ₁
Comprises a load-applying means P ₁ consisting of a substantially U-shaped metal clip 1 and a trigger material 2 attached (standing) between the free ends of the clip pieces of the metal clip 1.

The metal clip 1 is formed by simply bending a long metal plate or the like into a substantially U-shape. When no external force is applied and no load is applied, the U-shaped extended clip pieces close each other. The U-shaped clip pieces are provided with sandwiching portions 1a and 1b for pressing the optical fiber F of the optical fiber line near the free end.

Further, the optical fiber F used here is not particularly limited, and for example, a multimode optical fiber, a single mode optical fiber or the like can be used, and the material thereof is preferably a quartz type, but in the case of short distance laying The plastic type may be used. Further, as the coating of the outer skin, it is preferable to use thermosetting silicone or UV curable resin.

The trigger material 2 is made of a material that is easily melted or softened by heat, such as a hot melt adhesive or a thermoplastic polymer. As this hot melt adhesive,
For example, acid-modified polyolefin-based (ethylene-α-
Olefin copolymer, EVA, EEA, etc.), polyester-based,
Examples thereof include urethane type and nylon type, and examples of the thermoplastic polymer include PE, PP, PVAC, EVA, EEA, nylon and polyester.

Since the trigger material 2 has a function of retaining its own shape at a temperature lower than a specific temperature such as a melting point, it is attached (standing) between the free ends of the clip pieces of the metal clip 1.
When this is done, the open state can be maintained against the elastic biasing force of each clip piece. By maintaining this open state, the holding portions 1a, 1b of the metal clip 1 are
It is maintained in a state of being separated from the optical fiber F of the optical fiber line. Therefore, the unloaded state of the load applying means P ₁ for the optical fiber F [FIG. 1 (A)] is realized and maintained.

On the other hand, when the ambient temperature rises above the specific temperature, the trigger material 2 is melted or softened and removed, or the standing height thereof becomes low, so that the sandwiching portions 1a and 1b of the metal clip 1 are By the elastic biasing force of each clip piece,
The optical fiber F comes into contact with the outer circumference of the optical fiber F, and the load applying means P ₁ loads the optical fiber F [Fig. 1 (B)].
Will be realized.

Therefore, in the case of the present temperature detection sensor C ₁ , it is installed in the temperature detection position of the optical fiber F of the optical fiber line in a non-loaded state by the load applying means P ₁ as shown in FIG. 1 (A). In this state, for example, due to a fire or the like, the ambient temperature rises, and when the temperature becomes equal to or higher than the melting point of the trigger material 2, the trigger material 2 is melted and removed, so that as shown in FIG. 1 (B). Further, the load state is realized by the load applying means P _1, and the load is applied to a part of the optical fiber F of the optical fiber line.

Due to the change in the transmission characteristic (loss) of the optical fiber F due to this load, it is possible to detect the temperature change in the above portion.

Also, the trigger material 2 is replaced with the metal clip 1
If it is attached again between the free ends of the respective clip pieces, it can be reused repeatedly.

Each temperature detection sensor C _{1 of} the present invention configured as described above
Of course, it is possible to use only one, but it is extremely useful when used as a monitoring system for monitoring the temperature at a plurality of locations. In that case, for example, as shown in FIG. 2, one of the temperature detection sensors C ₁ may be installed at a plurality of locations of the optical fiber F connected to the OTDR ₁₀ , or an appropriate combination may be installed.

With this monitoring system, the transmission loss that occurs when the sensor C ₁ is activated can be detected from the level difference generated in the waveform on the OTDR 10. It is also possible to identify the sensor C ₁ that has operated, that is, the temperature rise location, from the distance to this step. Of course, it is possible to grasp the rising temperature itself from the loss amount.

<Effect of Device> As is apparent from the above description, according to the present invention, compared with the conventional electric sensor, (1) the load applying means P ₁
Is a simple U-shaped metal clip 1 and has a simple structure and is inexpensive. (2) At the time of installation, the metal clip 1 is simply attached to the optical fiber F, and each clip of the metal clip 1 is The trigger material 2 need only be attached between the free ends of the pieces, and has good workability. (3) There is almost no risk of malfunction due to the simple structure. (4) Wiring between parts is completely unnecessary. The fact that (5) the entire sensor is extremely small, (6) the number of monitoring points can be increased and decreased by using multiple sensors, and (7) the optical transmission system allows electrical action from the surroundings. Temperature detection, which has various advantages such as being less susceptible to heat, (8) no special maintenance is required before operation, and (9) re-attachment of the trigger material 2 enables repeated use. A sensor can be provided.

[Brief description of drawings]

1 (A) and 1 (B) are schematic side views showing an embodiment of a temperature detecting sensor according to the present invention, and FIG. 2 is a schematic explanation showing an example of a monitoring system using a plurality of temperature detecting sensors. It is a figure. In the figure, C ₁ ... temperature detection sensor, F ... optical fiber, P ₁ ... load applying means, 1 ... clip, 1a ... clamping part, 1b ... clamping part, 2 ... trigger material,

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Shinji Araki, 1440 Rokuzaki, Sakura City, Chiba Prefecture, Sakura Factory, Fujikura Cable Co., Ltd. (72) Hideo Suzuki, 1440, Rokuzaki, Sakura City, Chiba Prefecture, Fujikura Cable, Ltd.

Claims (1)

[Scope of utility model registration request] 1. A substantially U-shaped metal clip 1,
A holding portion 1a which is attached to the optical fiber F of the optical fiber line and which applies a load by elastic force in the closing direction to the optical fiber F at the free end side of each extended clip piece. a load applying means P ₁ with 1b, the are attached between the free ends of each clip piece metal clip 1, by its self-shape retention function is below a certain temperature of the melting point or the like, the two free end portions And the trigger material 2 that can be re-molded repeatedly and can be maintained in an open state against the elastic force of each clip piece. While maintaining the load applying means P ₁ in the non-loaded state, when the ambient temperature rises above the specific temperature, the trigger material 2 melts or softens, and the optical fiber F of the load applying means P ₁ Negative for A temperature detection sensor that realizes a load condition and can detect an abnormality in the optical fiber line.