SU528581A1 - Functional transducer to code - Google Patents

Description

The converter contains fiber-optic encoding unit 1, photocells 2, multi-input logic elements OR 3, control unit 4, widened as a logical element AND, output switches 5, movable illuminator 6 connected by light guides 7 to light sources 8, each of which is connected with matching trigger outputs 9.

The fiber-optic encoding unit 1 is composed of bundles of light guides, the input ends of which 10 are located close to each other and are divided into two groups. In one soil, the input ends of the optical fibers are coded with even serial numbers, and in the other, the odd ones. The output ends of the light guide fibers are associated with discharge even 11 and odd 12 groups of photocells 2.

The output switch 5 is made in the form of two-element OR circuits, which makes it possible to lock one of the inputs, for example, coming from the output of photocells 2 of group 11 at the moment of switching the light sources 8.

Each multi-input logic element OR 3 controls the presence of a signal in the binary code discharge at the output of the photo cells 2 of its group.

The Converter operates as follows.

When moving the movable illuminator 6 relative to the input ends 10 of the fiber-optic coding unit 1, the input ends 10 of the light guide fibers are lit.

For example, if the movable illuminator 6 illuminates only one element of the input end 10, a code is formed at the output of photo cells 2 of only one odd group 12, and the output of photo cells 2 of the second even group 11 does not have an electrical signal, respectively, there is no signal and the output of the logic control unit 4 At the moment when the light bar moves from one element of the input end 10 to another, for example, from an element with an even sequence number to an element with an odd number, it is enough to trigger the logic control unit 4 There is a signal at the output of at least one photocell 2 of the odd group 12, since at this moment there are signals at the outputs of the elements OR 3 of the two groups. As a result, the control unit 4 generates a control signal that is applied to the input

trigger 9, which switches the light source 8.

At the same time, one of the inputs of the output switches 5, for example, coming from the output of photocells 2 of group 11 (as shown in the drawing), is locked by the signal of the control unit 4 during the switching time of the light sources 8.

The uniqueness of the output signal is ensured by locking one of the inputs of the output keys 5 during the exposure time of two adjacent bundles of the input end 10 of the fiber-optic encoding unit 1.

Claims (2)

1. Functional displacement transducer into a code containing a slit movable illuminator associated with optical fibers with light sources, each of which is connected to the corresponding trigger outputs, the counting input of which is connected to the output of the control unit, an optical fiber coding unit, whose input ends of the light-conducting fibers of which arranged in a ruler and optically coupled with a slit movable illuminator, and the output ends are optically coupled with the corresponding bit even and odd groups of photocells, about T Compared with the fact that, in order to increase the conversion efficiency and simplify the converter, it introduced the output keys and two OR multi-input elements, the inputs of which are connected to the outputs of photo cells of an odd and even group, respectively, and the outputs of photo cells of an odd group are connected to the first inputs of output keys, and the outputs of even-group photocells to the second inputs of the corresponding output keys, the control inputs of which are connected to the output of the control unit, which is connected by inputs to the outputs of multiple inputs elements OR. 2. A transducer according to claim 1, characterized in that in it the control unit is designed as an element I. Sources of information taken into account in the examination: 1.Avt. St. No. 325624, CL O 08C 9 / 08.21.03.69. 2. Avt. St. No. 346734, CL 08H 9/06, 07.04.70. (prototype).