CS204615B1 - Device for separating the optical fibres - Google Patents

Description

At present, the optical fiber fronts are treated in several ways:

Cutting and mechanical polishing, which are very lengthy. Mechanical scratching (diamond, sapphire and the like) on the side of the fiber and breaking it or microdeforming the fiber at the fracture site using a thin hot wire and breaking the fiber. Both of these methods require several operations performed on different complex devices. Another known method is to disrupt the optical fiber at the fracture site by an electric discharge and to break or break it. In this latter method, the optical fiber is positioned between differently shaped electrodes so that a discharge surrounds the fiber from all sides. In this method, however, the fiber sheath is damaged over the entire surface over a relatively considerable length. These distortions can cause additional optical losses and lead to inaccuracies in determining the location of the future fracture.

These disadvantages are overcome by an optical fiber splitting device comprising a voltage source with high voltage electrodes and an optical fiber support according to the invention, characterized in that a dielectric plate for receiving the optical fiber is arranged between the high voltage electrodes. The high voltage electrodes are located on opposite sides of the dielectric plate, which is provided with a groove or hole for optical fiber storage. · Auxiliary spark gap is included in the high voltage electrode circuit in series.

The optical fiber splitting device according to the invention is structurally very simple, many operations are not required, so the fiber splitting does not take long. Also, there are no losses due to damage to the fiber sheath over the entire surface of a considerable length of the fiber, since the discharge only touches the fiber point.

The invention will now be described in more detail by means of three figures, in which Fig. 1 is a side view of the basic configuration of an optical fiber splitting device according to the invention; Fig. 2 shows the same device but the dielectric plate has a groove or hole; again the same as for the control as in Fig. 2, but the auxiliary spark gap is in series in the high voltage electrode circuit.

According to FIG. 1, the optical fiber splitting device comprises a voltage source 6 with high voltage electrodes 3 and 4, between which a dielectric plate 1, which may be of ceramic, glass or the like, is placed. The optical fiber 2 is usually placed on the upper edge of the dielectric plate 1 near the high voltage electrodes 3 and 4, which are metal. In Figures 2 and 3, the upper edge of the dielectric plate 1 is provided with a guide groove S into which the optical fiber 2 is inserted. Instead of being placed in the guide groove 5, the optical fiber 2 can also be threaded through an opening which is also near the high voltage electrodes 3 and 4. The high voltage electrodes 3 and 4 may be arranged either on either side in close proximity to the dielectric plate 1, or directly on opposite walls of the plate near the groove S or the aperture 8 where the optical fiber 2 is placed as it divides. The distance of the guide groove S or hole in the plate 1 from one electrode 3 to the other electrode 4 is small, so that when the voltage source 6 is switched on, the electric discharge passes from one electrode to the other over the surface of the dielectric plate 1 through the guide groove 5 or through the hole. 2, which is received in the groove 5 or which is threaded through the opening. The erosion parameters of the discharge can be set in addition to the supply voltage 6 by an auxiliary spark gap 7 (Fig. 3), which is in series connected to the supply circuit of the high voltage electrodes 3 and 4 and can also be placed on a dielectric plate 1. 7, the erosive parameters of the main spark gap between the high voltage electrodes 3 and 4 can be optimized.

The optical fiber splitting device according to the invention can be used for high-quality optical fiber splitting used as a basic medium in the transmission of information by fiber optic light guides at optical frequencies.

Claims (3)

An optical fiber splitting device comprising a voltage source with high voltage electrodes and an optical fiber support, characterized in that a dielectric plate (1) for receiving the optical fiber (2) is located between the high voltage electrodes (3 and 4). Optical fiber splitting device according to claim 1, characterized in that the high voltage electrodes (3 and 4) are arranged on opposite sides of the dielectric plate (1), which is provided with a groove (51) or an optical fiber receiving hole (2). Optical fiber splitting device according to Claims 1 and 2, characterized in that an auxiliary spark gap (7) is connected in series to the electrical circuit of the high voltage electrodes (3 and 4).