DE2519308A1 - BLINDERING WINDOW AND METHOD OF ITS MANUFACTURING - Google Patents

Description

75008 PARIS / France

Our reference: T 1768

Blinded window and process for its manufacture

The invention relates to a window with built-in Venetian blind and on a method of making the window »The window should give the same result as one translucent pane fitted with a blind, the parallel slats of which are almost infinitely thin. In In this case, the light incident on the disc at a certain, undesired angle is from the Slats depending on the value of the angle of incidence more or less strongly absorbed or reflected, while the Liohtstrom arriving parallel to the lamellae is due to the very small thickness of the lamellas passes almost completely through the disc.

The need for such a window is particularly noticeable in the cockpit of aircraft when the pilot On-board instruments with so-called "windshield display" for

$ 09846/0424

Lei / Gl

Are available, i.e. instruments that are visible duroh reflection on a semi-transparent mirror, the placed between the windshield and the pilot's eye and at about 45 ° with respect to the floor of the Cockpit is inclined. The semitransparent mirror optically unites the V / indshield and the image of the outside world seen through the semi-transparent mirror with that seen through reflection on the semi-transparent mirror Image of the on-board instrument (for example the screen of a cathode ray tube). When the sun is in the field of vision of the collimator system for the instrument image is above the plug tool, it creates an interfering image in the focal plane the collimator system, i.e. in the plane of this image, for example on the screen of the cathode ray tube, There is then the risk of destruction through heating. The aim is therefore to have the largest part of the To prevent the sun's rays from entering the collimator system, but very little from the landscape to absorb incoming light rays, which is an indispensable requirement, especially at the time of landing.

The aim of the invention is to meet this requirement by eliminating or alleviating the difficulties mentioned.

According to the invention is a window with JaIοusieffect, consisting of a medium that is responsible for the light rays whose direction of radiation is parallel to a certain Level, is translucent, and more or less opaque to light rays with a different direction is characterized by a massive, translucent disk in which it is evenly spaced parallel flat screens are embedded, the thickness of which is very small compared to the mutual spacing of the screens is, with the planes of the screens parallel to the particular one

509 846/0424

And form a non-zero angle with a plane leading to the large faces of the disc is parallel.

A preferred method for producing such a window is characterized according to the invention, that two translucent half-panes with interlocking sawtooth-shaped profiles are produced and that every second flank of the profiles is covered with a layer of an opaque material in such a way is that the layers form a series of parallel screens.

Further features and advantages of the invention emerge from the following description of an exemplary embodiment based on the drawing. In the drawing show:

Fig. 1 is a schematic sectional view through part of a window according to the invention,

FIGS. 2 to 5 show schematic representations of various manufacturing stages in the manufacture of the window according to the invention and

6 shows a preliminary stage in a variant of the method according to the invention.

Fig. 1 shows in a schematic sectional view a portion of a window with a certain angle of inclination to be installed in the cockpit of an aircraft opposite the direction HH of the floor. In which In the example shown, the window consists of a pane 1 with two parallel large surfaces 11 and 12, which form an angle i with the direction HH, this

509846/0424

Angle is, for example, between 40 ° and 50 °. In the transparent material forming the pane, opaque layers of small thickness (less than 1 mm) are embedded. These layers form tiny screens or blind slats V. *, Vp ···· V. which are parallel to each other 'at equal distances and include with the large surfaces 11 and 12 angles which are equal to the angle i, so that they are parallel to the floor of the cockpit when the window is installed. Each layer takes up only a fraction of the distance Η-, Ηρ between the surfaces 11 and 12 lying parallel to the direction HH. Let this fraction be denoted by MN "and PQ denotes an analogous fraction formed by an adjacent layer immediately above it. Two light beams Jj- and Lp are considered, both coming from the left part of FIG. 1 and along the Extensions of the two crossed paths PN and MQ are directed. These light rays form the angle 3 or the angle k with the vertical. The light rays lying in between are not intercepted by the layers MT and PQ, which is the case in particular for the light beam Lw, which runs parallel to HH. For a pilot whose eye is shown at 0, the light beam Lq corresponds to the luminous flux that achieves the smallest shielding effect through the tiny lamellas. The _{angle enclosed between the light beams L 1} and Lp represents the opening angle of the field of view for the pilot. As a result of the large number of blind slats and, consequently, of the spaces between them The lamellas allow the pilot to perceive any light beam that arrives at an angle that corresponds to this opening, if necessary by moving the head slightly. As an example it should be stated that the angle j can be selected between 10 ° and 20 ° and the angle k can be selected in the order of magnitude from 50 ° to 60 °.

509846/0424

A method for producing the windows described takes place, for example, in the following stages:

First stage:

Production of a shape that reproduces the profile MNPQ.

This shape is made from a light metal, a light metal alloy or a similar material. In the sectional view of FIG. 2, an example is one such a shape 20 is shown that of an inverted cuboid Shell is comparable. The edge 200 of this shell describes a rectangular outline of which the two Side wings 21 and 22 are shown in section; the bottom of the bowl has a serrated cross-sectional shape, which the MHPQ profile reproduces very often. The graduation of the flanks, which are alternately marked with MN and PQ and hereinafter referred to as "stages" are the successive ones Laying of the layers that are embedded in the pane 1 again. These stages, must carefully polished, while the flanks NP and MQ do not require careful surface finishing.

The NMQP profile could also be reproduced instead of the MNPQ profile. In this case, however, would be the processing less easy, because in the case of the embodiment shown (FIG. 1) the angle NMQ is smaller than the angle NPQ.

If the method described is modified, a somewhat more pronounced profile MN ¹ PQ ¹ (FIG. 1) is reproduced instead of the profile MNPQ. The stages MN ¹ and PQ ¹ are slightly longer than the stages MN and PQ, respectively. The advantage of this variant will be seen later.

SQ9846 / Q424

Second step;

Forming a first half-disc.

The shell formed by the mold 20 is coated with a synthetic resin filled in the liquid or pasty state, which is able to provide a solid resin through polymerization, which is called "optical resin" because of its translucency and isotropy. This is for example in the case of synthetic resins based on polymethacrylic acid methyl ester or on polyacrylonitrile or on polycarbonates the case.

The half-disk shown in FIG. 3 is obtained during molding in the form of a solid body 30, the tooth profile of which gives the profile of the shape of FIG.

Third stage

Application of the opaque layers.

Metal particles (e.g. Mckel particles) are in projected in the direction defined by the edges PK and MQ, which are the lines of intersection of the flanks of the Profile with the plane of the drawing of Fig. 3 are. This result can be obtained by spraying with a spray gun will.

Another solution that is a result of excellent Quality delivers consists in the fact that the metal to be applied is vapor-deposited in a vacuum .. The vapor-deposition device must have a bell whose dimensions are so large that it can not only accommodate the entire disc, but it too allows the source to be arranged at a relatively large distance from the surfaces to be covered, so that the Steam only under the desired angle

50 9846/0424

got. In this way, only the steps receive a layer of metal and not the planks that form the steps connect with each other and which are parallel to the direction in which the metal fumes arrive.

In this variant, the pane is oriented so that vapor deposition takes place in the direction of the straight line D, which goes through point P and meets step MN at point N "(Jig. 4). The plank PlT is the same as in the pail by Pig. 3, but a blind spot is created in this way, which ensures that no precipitation takes place on the plank PN. The slightest trace of precipitation on this plank, the quality of the penster in the finished state would be severely impaired. Palis despite the precautionary measures taken an unintentional precipitation occurs, this must be in the undesired places removed, for example by grinding.

In another variant of the method, one tries to measure the dimensions of the vacuum bell of the treatment device to reduce that one approaches the evaporation source to the disk. In this pail the number of sources is multiplied. Every second plank of the profile is protected by covering it with a substance, which then can be removed by the action of a solvent; this substance can for example be a be photosensitive resin.

Fourth stage:

Pormen of the second half-disc.

In the course of this stage, the first half-disk 30 forms the Toothed bottom of a Porm 50 in the Porm of a rectangular bowl that covers the plague body 30. In Pig. 5 is this

509846/0424

Shell shown enclosing a resin charge 51 similar to that used in the initial molding Synthetic resin is identical.

After polymerization is the refractive index of the resin on "both sides of a plank, for example the plank NP, the same, so that this plank is not visible is. A block 52 is thus obtained, which is composed of the half-disk 30 and the polymerized charge 51 is. In this block you can see the layers MN and PQ, which form the tiny blind slats.

In order to facilitate the machining of the mold 20 in the first stage, a group of metal sheets of the same thickness can be assembled in a preliminary stage, which reproduces the toothed profile of the mold 20. In Pig. 6 shows such a group of sheets T ₁ , T ₂ ... 1 ', each of which has the thickness e. The planks Qm (or NPj of the profile are formed in that the sheets are cut off at an angle, the cutting angle being equal to the angle QMN (. Or. NPQJ of the profile of Pig. 2. The planks MN (or PQj are obtained that the cutting heights H ^, H ₂ ... H _n are dimensioned accordingly from the same alignment surface 60.

This arrangement can be combined with one of the porms in Pig. 2 shown type for the direct shaping of the half-disk 30 is used, or it can be used in a first stage Production of a die serve so that a homogeneous shape for the series production of half-disks 30 is obtained.

The invention is suitable for the manufacture of pensters for cabins for land, air and water vehicles or for stationary use. In the case of cockpits, the

509846/0424

logs provided with the blind slats either the Be the windshield, or the semi-transparent mirror, the one for the windshield display of the on-board instruments is installed.

509846/0424

Claims (10)

Claims Window with JaIοusie effect, "consisting of a medium, which is translucent for the light rays whose direction of radiation is parallel to a certain plane is, and which is more or less opaque to light rays with a different direction, characterized by a massive, translucent pane in which evenly spaced parallel flat screens are embedded are, the thickness of which is very small compared to the mutual spacing of the screens, the planes of the screens lie parallel to the specific plane and form an angle different from UuIl with a plane that is to the large surfaces of the disc is parallel. 2. Window according to claim 1, characterized in that the screens have the shape of rectangles, the large sides of which lie parallel to the large surfaces of the disc and their small sides of the same order of magnitude as the distance between the screens and what the thickness of the pane is. 3. Window according to claim 1 or 2, characterized in that the angle between the planes of the screens and the The plane lying parallel to the large surfaces of the disk has a value between 40 ° and 50. 4. Window according to one of claims 1 to 3, characterized in that that it completely intercepts all rays of light that join the vertical on the planes of the screens Form an angle that is smaller than a value between 10 and 20. 5-0 9846/0424 5. Method of making a window according to one of the
Claims 1 "to 4» characterized in that two
translucent half-wires with interlocking sawtooth-shaped profiles are produced and that
every other plank of the profiles with a layer
an opaque material is covered so that the layers form a series of parallel screens
form. 6. The method according to claim 5, characterized by the following process steps: a) making a shape that reproduces one of the profiles; b) forming a first half-disk from translucent material; c) application of the layers by projection of metal particles; d) Forming a second half-disk which is joined to the first half-disk, the same being translucent Material as used for the first half-disc. 7. The method according to claim 6, characterized in that
process step c by vapor deposition of a metal
takes place in a vacuum. 8. The method according to claim 7, characterized in that the vacuum deposition is carried out using a source, which, based on the largest dimension of the disc, is relatively far from the disc, and that the Disk is oriented so that precipitation occurs only on every second sawtooth flank. 509846/04 9. The method naoh claim 7, characterized in that the vapor deposition is carried out using one or more sources with respect to the largest dimension of the disc are arranged relatively close to the disc, one removable with a solvent Resin; every other plank of the sawtooth profile protects. 10. The method according to any one of claims 6 to 9, characterized in that that in a preliminary stage sheets are assembled which are beveled in such a way that they one of the profiles reproduce. 509846/0424