SU1068954A1 - Photosensing head - Google Patents

Abstract

A PHOTOSHIPPING HEAD, comprising a housing, at the base of which is placed a light guide, mounted coaxially to the sleeve, the first and second additional cups, the additional sleeve and the main body mounted in the plane parallel to the plane of the fiber end, and a photocell optically connected with a light guide, which is different from the fact that, in order to increase the accuracy of the installation of the photocell, it is equipped with a rod, at one end of which a spherical surface is installed with a photo fixed in it element, the spherical surface is pivotally secured to the end core glass rod and the other end is associated with spring jacks and adjusting screws mounted in the walls of the second additional glass. S 31 l 00 SO ate 4 f

Description

The invention relates to instrumentation and computing technology and can be used in BJ photo reading devices. A known mechanism for attaching a photocell, containing a base with a hole in which a light guide and a glass with a gasket are installed, a nut with an external threaded part, and an additional glass, in the bottom of which there is a conical hole and radial slots extending from it, on the outside the side of the side walls are threaded and have holes in the ribs, in which pins are installed at one end and their other end is marked in an annular groove made in the upper part of the side wall of the cup , at the base of the hole, its hole is made with a ring of wa a groove with internal thread on a large diameter with an additional glass screwed into it, and the hole for the glass is made with a longitudinal slot, in which there is an additional pin mounted in the side wall of the glass, in the glass from the inner opposite sides , made the end boring and boring with the threaded part, in the latter there is a nut, podzhakvda photocell to the gasket, as well as the spring bushing with a cylindrical head, made with a conical middle part and a shank with a protrusion installed in the end bore of the main glass with the possibility of axial movement, and the conical opening of the additional glass is made from the inner surface of its bottom to the outer, and the conical middle part is spring-loaded, while on the outer The bottom surface of the additional cup is made with a diametral slot, and the protrusion Cl is on the inner surface of the cylindrical head of the spring-loaded bushing facing it. However, for this device, the accuracy of the installation of the photocell is not sufficient. . Closest to the invention is a mechanism for attaching a photo of the element, the contents of the base, the light guide, the main glass, an additional glass with a fixing and longitudinal movement mechanism, including a spring-loaded sleeve, a sleeve with yoy {tick installed with the possibility of turning in the hole of the base, and the second additional a glass with double walls, into which an additional glass is screwed, with the outer surfaces of the walls of the additional bushings and glass being eccentric to the axis of the glass of the CZT. However, the known device is also characterized by insufficient accuracy, since the adjustment of the photocell is performed only in the longitudinal and transverse directions and there is no adjustment of the photocell by the angle. The object of the invention is to improve the accuracy of the photocell installation. This goal is achieved by the fact that a photo-reading head, comprising a housing, at the base of which is placed a light guide, mounted coaxially to the sleeve, the first and second additional glasses, an additional sleeve and the main glass mounted for movement in a plane parallel to the plane of the light beam end, and a photocell optically associated with a light guide, equipped with a rod, at one end of which a spherical surface is installed. With a photocell fixed in it, a spherical surface is fixed by a hinge. At the end of the main cup, the other end of the rod is connected with spring-loaded pushers and adjustment screws installed in the walls of the second additional cup. FIG. 1 shows the proposed device, the cut; in fig. 2 - the same, top view. The photoreading head contains a base 1 with a hole 2 having a protrusion 3. In the hole 2, an additional sleeve 4 with a shoulder 5 is installed, and in the cavity of the sleeve 4 a second additional glass 6, in which an axial hole is formed, where the main glass 7 is installed with a spherical groove 8 under the spherical cavity 9 of the hollow rod 10. The photocell 11 is installed in the cylindrical groove in the spherical cavity of the hollow rod with a threaded ring 12. The rod is fixed in the main cup by an annular element with a central spherical With a recess 13 with the possibility of an angular reversal with the help of adjusting screws 14 and spring-loaded pushers 15. The outer surface of sleeve 4 and cup 6 is made eccentric to the main cup 7, which is equipped with an end bore 16, which has a spring-loaded sleeve 17 with a conical middle. In the glass 6, an annular groove 18 is made, an additional (first) glass 19 is screwed into its threaded section, having a conical opening on the bottom side, which is different from the bottom and has a conical surface of the sleeve 17, diametrical slots 20 forming elastic petals 21. In the main glass 7 an annular groove 22 is provided, which is connected by its side surfaces with pins 23 installed in the petals 21 of the cup 19, and in the axial opening of the glass 6 there is a longitudinal diametric spline made by interacting with the side walls with a pin, One light guide 24 is installed in the glass 7. On the side of the working surface of the photocell 11, the light guide 24 is installed in the cylindrical head 25, the sleeves 17 are made 26, and the diameter 19 in the glass 19 is retained. The retaining rings 28 and 29 are installed in the annular grooves of the base 1 and bushings 4. Splines 30 and 31 are made on sleeve 4 and glass, 6. The device works in the same way. When adjusting the output parameters of the photocell 11 in the longitudinal direction, it is necessary to unmount the stacks 19, for which they press the head 25 of the sleeve 17 until the protrusions 26 slide into the spline 27, after which the sleeve 17 (and with it the cTajHH 19) set the required distance between the glass 7 with the photocell 11 and the light guide 24. Then the head 25 of the sleeve 17 is released, and it under the action of the spring rests its conical surface on the conical surface of the elastic petals 21, while the latter bend, choose the radial play in the threads The joint and securely fix the position of the cup 19 and the cup 7 with the Photocell 11 relative to the cup 6 and the light guide 24. The alignment of the photocell 11 relative to the fiber 24 in another plane is performed by turning the sleeve 4 and the cup 6, the outer surface of which is eccentric to the axis of the cup 7 and the photocell 11 The locking of the sleeve 4 and the glass b is carried out by means of rings 28 and 29. The angle of the photocell is adjusted by angle using the adjusting screws 14 and the spring-loaded pushers 15 connected to the stem 10. The invention provides for the alignment of the photocell and the fiber by the angle, which is especially important in devices requiring high accuracy of the relative position of the elements not only on two mutually perpendicular planes, but also on the angle, for example when installing LEDs, the tolerance on the axis of the radiation pattern of which with its geometric axis, the angle is in the order of 10 ° to 15 °.

Claims (1)

A PHOTO HEAD, comprising a housing at the base of which a light guide is placed, a coaxially mounted sleeve, a first and second additional glasses, an additional sleeve and a main machine mounted to move in a plane parallel to the plane of the end of the light guide, and a photocell optically connected to the light guide, characterized in that, in order to increase the accuracy of the installation of the photocell, it is equipped with a rod, at one end of which there is a spherical surface with a photocell fixed in it, spherical surface is pivotally secured to the end core glass rod and the other end is connected with spring pushers and adjusting screws mounted in the walls of the second additional sta- _with kana. Sg