SU1553941A1 - Method of assembling polyhedral mirror scanner - Google Patents

Abstract

The invention relates to optical instrument making and allows simplifying assembly technology and increasing its productivity. This is ensured by the fact that radial guides are made on the base surface 2 of the disk 1: grooves 7 with keys 9 or pins. Grooves 8 are also made on the prisms 4. A process cylinder 11 is installed in the center hole 3, after which the prisms 4 are guided along the guides to the process cylinder 11 and then the prisms 4 are fixed. Other options have been proposed to improve the accuracy and productivity of scanner manufacturing. 4 il.

Description

The invention relates to optical instrument making, in particular to scanning systems of thermal imaging optical devices.

The purpose of the invention is to simplify assembly and balancing by reducing balancing operations.

Figure 1 shows a multifaceted mirror scanner; Fig. 2 shows a scanner in which the prisms are connected with guides through keys, a slit; in FIG. 3, a scanner in which pins are used as guides. figure 4 is the same, the prism is installed on the gaskets.

The multifaceted mirror scanner (Fig. 1) consists of a disk 1 with a base surface 2 and a central hole 3. On the base surface 2 there are installed prisms 4, the reflecting surfaces 5 of which are at an angle to the axis of rotation 6. The disk 1 has radial guide grooves 7, and the prisms have grooves 8. The guide grooves 7 of the disk 1 and the grooves 8 of the prisms 4 have keys 9, the prisms 4 are fixed to the disk 1 with screws 10. The central hole 3 is intended for installation in it technological cylinder 11.

In the modification of the scanner (Fig. 3), pins 12 are installed as guides on the base surface 2 in the radial direction, and a technological ring 13 is used as a technological cylinder. In Figures 2-4, the technological cylinder is designed as an axis 14 of rotation. In FIG. 4, a technological gasket 15 is installed between the outer surface of the axis 14 and the prism 4, and a technological gasket 16 between the prism 4 and the base surface 2,

The method is implemented as follows.

The disk 1 is made with a base surface 2 and a central hole 3, and the prisms 4 are manufactured.

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with so

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locally (in the package), which ensures them the same size. On the base surface 2 of the disc 1, radial guide grooves 7 are made,. and on prisms 4, grooves 8 parallel to their main sections. B grooves 8 of prisms 4 are fitted with keys 9. A technological cylinder 11 is installed in the central hole 3, after which JQ prisms 4 with keys 9 are brought along guide 7 to technological cylinder 11 Next, the prisms 4 are fixed to the base surface 2 by means of screws 10. After this, the technological cylinder 11 is removed and the axis 14 (FIG. 2-4) of the scanner rotation is attached to the disk 1 or the same technological cylinder (figure 4). At 2 resizing the prisms, the technological ring 13 plays the role of the technological cylinder, which is installed on the axis of rotation 14 (FIG. 3). In the modification of the scanner in FIG. 3 instead of 2, making the slots 7 and installing the keys 9 on the base surface 2 (in the radial direction, pins 12 are mounted as guides,

To reduce the cost of the proposed method of manufacture (Fig. 4), prisms 4 are classified according to the accuracy of manufacture and between the outer surface of the axis 14 and the prisms 4, as well as between the prisms 4 and the base surface, appropriate technological pads 15, 16 are installed.

Claims (1)

Invention Formula A method of assembling a multifaceted mirror scanner, which includes installing prisms with grooves on a flat base surface with a central hole and radial grooves, characterized in that, in order to simplify assembly and balancing by reducing balancing operations, a technological cylinder is introduced into the central hole the grooves are keys that mate with the slots of the prism, the prisms are moved along the keys until they come into contact with the technological cylinder, after which the prisms are fixed on a flat base surface, and those ologichesky cylinder and key removed. (ft / i. / 1 sixteen I and T I f f t In /////////, 3 FIG. C