SU911750A1 - Device for indication of locations of electronic components on board - Google Patents

Description

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The invention relates to radio instrument making and can be used in assembling assemblies on printed circuit boards.

A device for indication is known, which can be used for mounting radio elements on a board, comprising a base, an optical system including a light source, a reflecting mirror and two lenses. However, a known device does not provide high accuracy of indication.

The purpose of the invention is to improve the accuracy of the display.

The goal is achieved by the fact that a device for indicating the locations of radio elements on a board, containing a base for a printed circuit board and a source of light placed in the housing, a reflecting mirror and two lenses, is equipped with a diffuse-diffusing plate located in the plane of the image of one of the lenses that is aligned with the plane of objects of another, lens.

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The drawing shows the proposed device, a General view.

The device contains a base 1, on which a board 3 is assembled in a stand 2 with a radio element f lens 5 diffusely scattering plate 6, lens 7 reflecting mirror 8 fixed in housing 9, on the end of which clamping mechanism 10 and reference board are mounted 11. In the hole of the latter installed the ends of the optical fibers 12 and 13,

15, located in the plane of the objects of the lens 7B, the control node Ik houses the second ends of the optical fibers and the light source.

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The device works as follows.

B. Clamping mechanism GO install the board 11, in which the axis is from 39

Versions are identical to the assembled board 3. The diameters of these holes correspond to the diameters of the adjustable ends of the optical fibers 12 and 13 and are somewhat larger than the diameter of the holes Q and B. Then on the stand 2, pre-exposed corresponding to the card 11, install the card 3 includes a light source located in the node 14 of the controls. The light propagating through the optical fibers is reflected from the mirror 8, which is located between the optical fibers 12 and 13 and the lens 7. The use of an opaque mirror allows changing the path of the beams from the reference board 11 and placing the latter in a convenient place for the nepeJcraHOBKH optical fibers of the device, while the light losses are insignificant .

Lens 7 focuses the image from mirror 8 onto plate 6, which improves the use of the objective field of view due to diffusion scattering of light on it. Then the light, the passage through lens 5, highlights the image on the collection board 3

Since the plate 6 is located in the plane of the objects of the lens 5, .the assembled board 3 is in its image plane, on the board 3 the operator sees the illuminated edges of the holes O and% in which he installs the corresponding radio element k. For installing other components on the board 11, install for each of them, the corresponding optical fibers, similarly to optical fibers 12 and 13, to those places of the reference board where the corresponding components are to be located. Since the diameters of the holes d and ft are larger than the holes on the board 3, at the edges of the latter the operator sees light concentric circles, and in the installation sites, for example, chips with a planar 7504

He sees the light points equal to the projected points a and 6, where there are no through holes on the board 3. When the batch of the removable boards 3 is changed, the light sources in the node AND are sequentially switched according to the program, and the operator sets the components in the places indicated by the light points to him

When assembling another unit, the board 11 is changed accordingly, the ends of the optical fibers 12 and 13 are reinstalled, the process is repeated.

5 For a group of similar nodes, the adjustable ends of the fiber guides 12 and 13 can be set for the entire group in advance; then, when moving from assembling one node to another, it is only necessary to switch light sources according to the program corresponding to a particular node, using conventional methods or similar device.

Claims (1)

1. Anenko N.I. Optical instruments in mechanical engineering. Directory. Mashi1974. construction, ten