PL127281B2 - Method of jointing fibres of communication light wave-guides - Google Patents

Description

The present invention relates to a method of joining telecommunications optical fibers by thermal welding. Various methods of joining optical fibers are known. One of them is the frontal contact of the ends of the fibers, and then securing the durability of the contact mechanically or chemically. Other methods that become dominant in the technique of connecting optical fibers is welding with the use of appropriate devices. As a heat source, gas burners, plasma generators, a laser or an electric lead are used. These solutions, however, have many disadvantages, such as limited possibilities of centrically positioning the ends of the fibers, one degree of freedom of movement of the electrodes and their symmetrical arrangement with respect to the fiber, limited possibilities of manipulating the ends of the optical fibers, and the constantly high voltage of the arc supply, which causes high optical losses of the optical fibers. permanently centered connection of two cores of telecommunication optical fibers by thermal welding ensuring minimal optical losses at the connection point. The method according to the invention consists in thermal welding of optical fibers with an electric arc after prior mechanical centering them by counter-rotating rotation guided around their own axes of the fiber ends, in a known welding apparatus having a "V" groove. The heating of the joined ends of the fibers takes place at a supply voltage (0.7-0.9 kV) below the voltages causing the automatic arcing for specific physical conditions of the system (distance and shape of electrodes, pressure and composition of the surrounding atmosphere). This is possible with a one-way current in the arc. the instantaneous value of which is never zero. The arc is supplied with a constant voltage modulated by a rectangular wave with an adjustable filling factor and modulation depth lower than 100%. The arc is initiated by a single high voltage impulse in the range of 3-5 kV. The arc works with a small content of direct current. Temperature regulation is achieved by changing the filling factor of the gap supply voltage. In the joining process, the temperature of the joined ends of the fibers is changed according to the selected program in order to obtain the lowest thermal stresses in the connected optical fibers. The arc electrodes have a movement perpendicular to the fiber core with a speed of 2-5 cm / sec. The light guides move until they meet. Example. Two ends of optical fibers prepared for the joining process are placed in the holders of the device used for thermal joining of optical fibers and are subjected to centering for minimum optical losses. Then, the device turns off and initiates the ignition of an electric arc, which causes the initial heating of the ends of the connected optical fibers. The pre-heated ends of the optical fibers are brought closer and further heated to the required temperature of 1600 ° C. After 0.5 -5-1 sec. the electrodes move perpendicular to the fiber core and after a further period of about 0.5 sec. extinction of the arc and completion of the welding process. The so-made joint is secured chemically and mechanically. Patent claims 1. The method of joining the fibers of telecommunication optical fibers consisting in welding with constant-current electric arc modulated, characterized in that the modulation depth of the arc is less than 100% and the voltage supplying the arc is lower than the voltage causing the automatic arc formation for specific physical conditions. 2. The method according to claim 3. A method according to claim 1, characterized in that the ends of the fibers of the optical fibers to be joined are centered by opposing rotations about their axes in a known device with a "V" groove. 3. A method according to claim 1, characterized in that the temperature control in the arc zone is achieved by changing the filling factor of the voltage supplying the gap, automatically according to the program set in the connection process. 4. A method according to claim 1 or 2 or 3, characterized in that the electrodes generating the electric gap have a movement perpendicular to the fiber cores with a speed of 2-5 cm / sec . Printing studio of the Polish People's Republic. Mintage 100 PLN. Price PLN 100 PL

Claims (4)

Claims 1. A method of joining fibers of telecommunication optical fibers consisting in steel-beam welding with an electric arc modulated, characterized in that the arc modulation depth is less than 100% and the arc supply voltage is lower than the voltage causing the automatic arc formation for specific physical conditions. 2. The method according to claim The process of claim 1, characterized in that the ends of the fibers of the light guides to be joined are centered by counter-rotations about their respective axes in a known device with a "V" groove. 3. The method according to p. The method of claim 1, characterized in that the temperature control in the hatch zone is achieved by changing the filling factor of the hatch voltage supply automatically according to a predetermined program in the joining process. 4. The method according to p. 3. The method according to claim 1, 2 or 3, characterized in that the electrodes generating the electric arc have a movement perpendicular to the fiber cores at a speed of 2-5 cm / sec. Printing workshop of the UP PRL. Mintage 100 cg. Price PLN 100 PL