SU879395A1 - Friction machine for testing optical fibrous end connections - Google Patents

Description

(54) FRICTION MACHINE FOR TESTING SIZE FIBER OPTICAL CONNECTORS

Claims (2)

 The invention relates to devices for studying the frictional characteristics of the friction units when reversing the movement of the friction unit, namely, to study the friction face pairs, made of optical transparency. : s materials. A device for automatically recording the moment of friction during tests, face friction assemblies, comprising a housing, a sample holder made in the form of a sleeve, a rotation drive of the sample holder, a counterpiece sample holder, a friction torque meter and a loading device 11 is known. The disadvantage of this device is that it cannot be used to test the end-optically transparent samples, since it does not contain the means for the supply and removal of light beams, and also does not have a reversible drive. The closest to the technical essence of the invention is a friction manual for testing end fiber-optic connectors, comprising a body, a sample holder made in the form of a sleeve and kinematically associated with a reversible drive. rotational motion, the holder of the counterbeam j interacting with the friction torque meter, and a loading device consisting of a spring, a clamp rod and a screw pair 2. This machine also cannot be used for testing transparent materials since it does not contain a friction torque meter and means for the supply and removal of light. The aim of the invention is to expand the range of materials under investigation. This is achieved in that a through groove is formed in the sleeve along its generatrix, and through the core there is a through central axial bore; The machine is equipped with a light emitter and a radiation receiver. The drawing schematically shows the proposed machine friction. It contains a body consisting of a casing 1, a plate 2 and racks 3; sample holder including sleeve 4 and bearing 5; an inverted rotary motion drive 6; holder kontrabrasp.ch, cocTOHiuiiii And (iolitpik 7, centering sleeve 8 and cup 9; meter of friction, made in the form of an elastic beam 10 with strain gauge sensor 11; loading device consisting of a spring 12 and a push rod 13 constituting plate 2 screw pair; as well as a source of light radiation and receiver light ia (not shown). In the sleeve 4 of the sample holder there is a through groove located along forming the sleeves, and in the push rod 13 - a through axial bore, the friction works as follows. behind fasten in the sample holder with one end, and the other out through the groove in the sleeve 4 and fasten to the light receiver. The counter sample 4 is installed in the sleeve 8, fastened with an elastic beam 10. Drive the ends of the sample and counter sample 14 into contact, load the friction pair with a rod 13 and springs 12 and include a reversible rotation drive of the Sample. The moment of friction is recorded using strain gauge equipment (not shown), the wear pattern is determined by the loss of light intensity at the contact directed through it from the light source according to the test pair or special fibers to the receiver. Claim 1. Friction machine for testing end fiber-optic connectors, comprising a body, a sample holder, made as a sleeve and kinematically associated with a reversing rotational drive, a counter piece, interacting with a friction torque meter, and a loading device consisting of a spring , pressure rod and screw pair, characterized in that, in order to expand the range of materials under study, a through groove is made in the sleeve along its core, and through the rod In Central axial bore. 2. A machine, friction according to claim 1, in that it is equipped with a light emitter and a radiation receiver. Sources of information taken into account in the examination 1. Zagavura F.Ya. Determination of Tpyuftix wear and tear with steam flow rates. Kiev, publishing house of Kiev University, p.80-82, 1969. 2.Savinsky Yu.E. Investigation of the metal fluoroplastic helicopter rotor bearings. On Sat Methods for testing and evaluating the service properties of materials for plain bearings M., Nauka, p. 122-127,1972 (prototype).