SU1788502A1 - Lens hood - Google Patents

Description

The invention relates to optical instrumentation, in particular to light-protective devices used to eliminate spurious illumination in optical and optoelectronic devices.

Various types of light protection devices are known. Of these, circular hoods, consisting of a cylindrical or conical body and flat transverse annular diaphragms arranged inside the hood in such a way that any beam of spurious illumination at a given angle of incidence after reflection from the blackened inner walls or diaphragms did not fall into the entrance pupil of the device, are widely used. Their length L is determined based on the parameters of the optoelectronic device and the maximum illumination angle φ. those.

[_ = ____ 5____ tgy) -tgw 'where D is the diameter of the exit hatch of the hood. ώ-angle of half the field of view of the lens.

Circular hoods have the following disadvantages. If it is necessary to reduce the illumination angles (less than the limiting angle of illumination φ for a circular hood), either direct passage of the illuminating beams through the exit hatch of the hood occurs, provided that its length is unacceptable, or if the requirements for light protection are fulfilled, the axial dimensions and weight increase at smaller angles of illumination.

These disadvantages are eliminated in the cell hoods, which with a decrease in the angle of illumination, with equal length with a circular hood, provide adequate light protection from power side flares. The known cell hood has an external

1788502 A1 is a hollow body with inlet and outlet hatches, which can be either a cylindrical or a conical profile. Light-absorbing black partitions are placed inside the housing, which form a honeycomb structure from light-conducting channels. Light-conducting channels, and hence the cell walls, are located in the entire axial length of the hood body and end on its inlet and outlet hatches (see Fig. 1, where for this variant the cell walls are shown by dashed lines). In this type of lens hoods, although light protection is provided at lower angles of illumination, φ. however, parasitic light from the septum cells appears. A significant drawback in them is that the cell walls direct scattered light into the exit hatch of each cell even at large illumination angles φ, practically starting from the illumination angle φ = 90 °. Moreover, with a decrease in the angle of illumination to the angle y? the area of illuminated partitions increases, and consequently, the stray light scattered from them increases at the output of the hood.

The aim of the invention is to reduce stray light and increase the light-shielding properties of the hood.

This is achieved by the fact that in the hood containing the tubular body with input and output windows and the partitions located inside the body at the same distance from each other, forming light-conducting cells, the length I of the projections on the axis of the hood of the partition walls of the cells located at the exit window of the case is not less than

L (tg ^ -tgw) tgy - tgrm 'where L is the axial length of the hood body; ip - a given angle of illumination of the hood;

(ι) ~ half the angle of the field of view;

ωι is the angle of inclination of the cell wall to the axis of the hood.

In FIG. 1 depicts one of the options for the proposed hood (solid lines); in FIG. 2 is a front view.

The housing 1 with a blackened internal cavity has an input window 2 and an output 3. Inside the housing 1 there are blackened partitions 4, which form a honeycomb structure of light-conducting channels. Reduction of spurious light from the cell walls can be achieved at illumination angles from 90 ° to ^ (the extreme AC beam in Fig. 1), if the length of the cellular part I is less than the length L of the lens hood, while providing light protection at given illumination angles xp. The length I of the cellular part is determined on the basis that any beam of a wide illuminating beam incident at an angle xp to the axis of the lens hood (in the direction parallel to the speaker) does not directly exit through the exit window, but is blocked by cell walls at a given illumination angle of 1p. The minimum length of 1 _m can be determined from 10 of the right-angled triangles of asv and vvv

I de ^m хдхр - tgwi 'where хр is the limiting angle of exposure, ωι is the angle of inclination to the axis of the cell wall aС. de is the cell size at the output of the hood (cC = CO)

From the right-angled triangles DIA and ADV 20 de = L · (tg ip - tg ω) (2)

Substituting the value of de from equation (2) into equation (1) we obtain

- tga?) ^lM tg ^ - tgwi

For practical reasons, it is advisable to have a margin of 5-10 mm along the length of the honeycomb. Then the optimal length of the cellular part is within

1m + (5-10)> 1 ~ ^ L (tgj /; - tdsch) tgi / ’- tgftk and provides reliable light protection at the given illumination angles xp. As a result of such a combination structure 40, the weight of the hood is also reduced.

Thus, the effectiveness of the lens hood that provides light protection at given exposure angles y> compared to the prototype lies in the fact that due to the absence of 45 in the front of the blackened partitions of the cells, stray light is completely eliminated at exposure angles from 90 ° to · <p. since light protection is carried out according to the principle of a circular hood, and at exposure angles from y? up to? / ’, its number is significantly reduced compared to 'with a full honeycomb blend, since 5 the length of the cell walls has been reduced. A circular hood in the range of the same angles from φ to g does not protect at all from the illuminating beams, if they pass directly through the exit window.

Claims (1)

Claim A hood containing a tubular housing with inlet and outlet windows, and located 5 _L (tg ^ - tgct>) tg ^ - tgwi where L is the axial length of the hood: 5 ψ - a given angle of illumination of the hood; ω is half the angle of the field of view; ωι is the angle of inclination of the cell wall to the axis of the hood. walled inside the housing at the same distance from one another of the partition, forming light-conducting cells, characterized in that, in order to increase light protection, the length I of the projections onto the axis of the hood of the partition walls of the cells located at the exit window of the housing is not less than the value of FIG! Compiled by V. Vasiliev Editor Tehred M. Morgenthal Corrector M. Maximishinets Order 73 Circulation Subscription VNIIIPI of the State Committee for Inventions and Discoveries under the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Plant Patent ”, Uzhgorod, 101 Gagarina St.