DE3420154A1 - Optomechanical rotary switch - Google Patents

Abstract

The optomechanical rotary switch, which consists of a rotor (13) and stator (1) switches over the optical connection of an input optical fibre (9), which is mounted coaxially on the stator (1), sequentially to a larger number of output optical fibres (2, 3) mounted radially on the stator (1). For this purpose, the rotor (13) has a connecting optical fibre (16) whose output end is arranged radially in such a way that its output end face (18) is respectively located opposite one of the output optical fibres. Its input-side end is arranged bent coaxially relative to the axis (10) of the rotor, so that its input end face (17) is located opposite the input optical fibre (9). <IMAGE>

Description

Opto-mechanical rotary switch

The invention relates to an opto-mechanical rotary switch for switching the optical connection of one input optical fiber to several output optical fibers arranged radially on a rotationally symmetrical stator, wherein a rotor with a connecting optical fiber is mounted in the stator, whose Input end face of the input optical fiber and its output end face one facing the radial output optical fibers.

Opto-mechanical rotary switches are used, for example, to to optically connect several optical sensors one after the other with an evaluation device.

From DE-OS 26 51 776 an opto-mechanical rotary switch is initially of the type mentioned, which contains a rotor with a plurality of connecting optical fibers. Depending on the position of the rotor, light is emitted from a radially arranged input optical fiber coupled into one of the output optical fibers via one of the connecting optical fibers. Here, the connecting optical fibers are arranged on the rotor in such a way that an end face of a connecting optical fiber for each switch position Input optical fiber and the other end face of this connecting optical fiber face one of the output optical fibers. For every optical connection between The input and output optical fiber is thus its own connecting optical fiber required, so that the rotor is constructed all the more complicated, fe more output optical fibers can be controlled by opto-mechanical rotary switches.

The object of the invention is to provide an opto-mechanical rotary switch with a simply constructed rotor that has an input optical fiber successively optically connects to a larger number of output optical fibers.

This task is started with an opto-mechanical rotary switch This kind of solution is achieved in that the connecting optical fiber received in the rotor arranged bent with its input-side end coaxially to the rotor axis of rotation is and the input optical fiber also opens coaxially to the rotor axis of rotation.

Only a single connecting optical fiber is required here, their input face for each switch position of the input optical fiber and their output end face alternately opposite the output optical fibers.

An embodiment of the invention is described below with reference to the Drawing described. It shows an opto-mechanical consisting of a rotor and a stator Rotary switch in section.

The opto-mechanical rotary switch consists of a rotationally symmetrical formed stator 1, in the jacket a larger number of output optical fibers 2, via connector 4, 5 are attached radially. or the end faces of the The output optical fibers 2, 3 opening onto the inside of the stator 1 are focusing lenses 6, 7 arranged. An input optical fiber is via a further connector 8 9 attached to the stator 1 in such a way that its end connected to the stator 1 in the Axis of symmetry 10 of the stator 1 lies.

A rotor is located in the stator 1 via a slide bearing 11 and a ball bearing 12 13 rotatably mounted in such a way that its axis of rotation and the axis of symmetry 10 of the stator 1 match. The rotor 13 is driven by a servomotor 14.

A ball lens 14 is attached to the rotationally symmetrical rotor 13, which is opposite the end face 15 of the input optical fiber 9. Furthermore is housed in the rotor 13 a connecting optical fiber 16, the input side End coaxially to the rotor axis of rotation 10 opens on the upper side, with its input end face 1 on the side opposite the end face 15 of the input optical fiber 9 the ball lens 14 comes to rest. The output end of the connecting optical fiber 16 runs radially and opens onto the jacket 20 of the rotor 13 in front of its exit end face 18 there is a collimator lens 19 which, depending on the position of the rotor 13, alternates one of the focusing lenses 6, 7 is opposite.

The light supplied by the input optical fiber 9 is via the Ball lens 14 and the input end face 17 in the connecting optical fiber 16 coupled. Here the light is passed on until it reaches the exit end face 18 emerges from the connecting optical fiber 16 and from the collimator lens 19 is converted to parallel light. Depending on the position of the rotor 13, this is then Light through one of the focusing lenses 6, 7 into one of the output optical fibers 2, 3 coupled.

The rotary switch also works if its inputs and outputs are swapped i.e. when light is entered through the stator optical fibers and from the rotor-side optical fiber is added.

Claims (1)

PATENT CLAIM Opto-mechanical rotary switch for switching the optical Connection of one input optical fiber to several radially on a rotationally symmetrical one Stator arranged output optical fibers, wherein in the stator a rotor with a Connecting optical fiber is stored, the input end face of the input optical fiber and the output end face of which is opposite one of the radial output optical fibers, characterized in that the connecting optical fiber received in the rotor (13) (16) bent with its input-side end coaxially to the rotor axis of rotation (10) is arranged and the input optical fiber (9) also coaxial to the rotor axis of rotation flows out.