DE1086456B - Projection screen and process for its manufacture - Google Patents

Description

GERMAN

The invention relates to a projection screen with an outer reflective one lying on the visible side Layer of crystals embedded in a carrier.

There are matt white projection screens known, in the surface of which a pigment, usually magnesium oxide, recently it also contains titanium dioxide. This pigment is either in the known umbrellas embedded in the base layer, but it can also be in a separate reflective coating on the The visible side of the screen can be applied over a base layer. These familiar screens cause a completely diffuse reflection of the incident light, d. H. an even distribution over all angles. A viewer who is facing the screen at any large angle from the normal direction looks and looks at any section of the screen, always has the same impression since the surface brightness is independent of the viewing angle. The disadvantage of these umbrellas lies in the fact that a large part of the diffusely reflected light to the side walls, to the floor and falls to the ceiling of the projection room and is thus lost to the viewer.

There are also known screens on which aluminum flakes are applied. These aluminum flakes act as a small mirror and cause a Propagation of the reflected light intensity over a limited angular range. The ones with aluminum flakes However, coated screens have not proven their worth because there are minor deviations from normal viewing the appearance of the screens turns gray very quickly. It therefore joins with Aluminum flake coated screens often put the viewer in the center of the image area see a so-called "hot spot" caused by the strong intensity of the in the normal direction reflected light is generated while the same viewer looking at an edge zone of the Screen only detects a much lower intensity.

There are also already known screens on which leaf-shaped crystals of ammonium manganese phosphate and ammonium cobalt phosphate or mixed crystals of these substances face-parallel or approximately face-parallel are applied to the level of the screen. The crystals are with these well-known umbrellas applied by placing a plate in a water bath is immersed, which contains the crystals in suspension. The crystals settle on the Plate down, then the water is poured off.

Ammonium manganese phosphate and ammonium cobalt phosphate are white and purple, respectively. A refractive index cannot be given for them. The ammonium projection screen and procedure
for its manufacture

Applicant:

Andrew Smith Harkness Limited,
ίο London

Representative: Dipl.-Ing. F. Weickmann

and Dr.-Ing. A. Weickmann, patent attorneys,

Munich 2, Brunnstr. 8/9

Claimed priority:
Great Britain 5 April 1956

Thomas Smith Harkness, London,
has been named as the inventor

Manganese phosphate is also water-soluble. An umbrella with water-soluble crystals on its has outer surface is unusable because it is not able to withstand all climatic conditions to be resistant to.

The use of white lead in the manufacture of screens is also already known.

There are also reflective metal coverings have been proposed for projection screens by a Binder, made of white lead and suitable oils are applied, with a metal coating on these milk-like coating is formed from white rubber and white pigment.

It is also known to use a mixture of pulverized aluminum and pulverized aluminum on aluminum screens Apply white lead.

It is also known a projection screen in which a so-called in the reflective layer Pearl essence or fish silver is included. In addition, it is suggested that instead of the fish silver, d. H. Fish scales, extracted natural pearl essence to use synthetic pearl essence. Artificial pearl essence is a synthetic compilation of naturally occurring organic Substance (guanine). The natural pearl essence occurs in the form of knife-blade-like crystals. These Crystals have different indices of refraction in different crystal directions. In the vertical direction

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to the main surface and thus to the effective surprisingly good result. The invention reflecting surface The only area in question according to the screen differs from the known the index of refraction is 1.456. In the other two diffuse reflecting screens by one substantially Directions it is 1.8 or 1.85. One has this better overall reflection within the alone inter-crystals already in the manner of the angular range that is consumed on screens. From the known borne that one differs them favorably in cellulose acetate, ethyl-aluminum screens Cellulose, synthetic resins, gelatin and various by a diffusion of the reflection area and Introduced resins and together with these carriers - avoidance of glossy reflections. This beneficial sprayed substances onto the base of the umbrella. Effect of the screen according to the invention is there This process depends on the orientation of the io explained by the reflection on the surfaces Crystals from the most varied of conditions, the crystal flakes and the diffuse reflection at the so on the shape of the crystals, the size of the white base crystals lying under the crystal flakes, the viscosity of the carrier material, the layer can be used at the same time. In the Surface tension of the substrate, the hardening crystal flakes, can cause repeated reflections processing speed of the carrier material. About the 15 take place. That finally to the basic layer onorientation the crystals in the carrier materials are falling light is reflected diffusely. All in all no information has been given. It is the extreme- it gives an excellent light output. the if it is conceivable that the crystals in complete statistical absorption is very low; it has also been shown Clutter are contained in the carrier. It is that the angular distribution in the inventive The other extreme case is also conceivable, in which the crystals 20 screen is an extremely favorable one. You get lie completely flat on the base layer, and even with large viewing angle areas one after all, it is quite possible that the intensity is sufficient.

Crystals predominantly parallel to the base and according to one embodiment of the invention

lie at acute angles to this. As the carrier sheet made of polyvinyl chloride and the

Substances used in the carrier material have their intermediate layer made of a mixture of polyvinyl

on the other hand, a refractive index in the order of magnitude of chloride, polyvinyl acetate and about 5 percent by weight

1.45 to 1.5. The result is that titanium dioxide at the interfaces.

between the pearl essence crystals and the carriers- The average diameter of the crystals

Substances a reflection of considerable size does not occur is around 6 μ.

occurs. The pearl essence crystals also have the following 30 In order to prevent the crystals from penetrating

Part of the fact that they are yellow and thus damage the appearance and effect of the atmosphere

Coloring of the image generated on the screen, this expediently immediately after its cultivation in

influence. They also have the disadvantage that they have a protective coating, e.g. B. made of nitrocellulose,

than organic matter is prone to putrefaction. dough.

In practice, those with pearl essence crystals 35 those containing the lamellar crystals coated screens as completely unusable. The layer has a thickness of about 20 to 25 μ. Preferably, the outer, leaflet-shaped cri-

Finally, there is a modification of the lead carbonate containing several layers on top of each other

as an unsatisfactory substitute for layers on which pearl essence is applied.

knows. This modification of the screens according to the invention is the emergency lead carbonate around white pigments, in which tiny nimble ways, often from several webs gleaming together hexagonal leaflets are made of basic lead, the interference-free transition is on carbonate occur. It has been suggested that the seams be particularly critical. Namely, would Pigment for paints, varnishes, films, plastic - furrows or bumps occur in these areas, plates and the like and generally everywhere then these furrows or ridges would turn wrong, when the white and shiny appearance result in orientation of the crystals. These these pigments offer a particular advantage. For crystals this would be due to their optical directivity These pigments do not bring any advantage to umbrellas. They exaggerated the furrows and ridges in surrender a diffuse reflection that allows the optical appearance to emerge. It is therefore pre-behavior when using ordinary white lead 5 ° beat, the optical properties of the invention dye is not significantly different. according to the screen can be improved by the fact that

The invention is based on the known projections, the partial webs by superimposing the same, tion screens with an outer, subsequent welding on the visible side along the adjacent reflective layer of edges lying in the carrier material, cutting off the crystals embedded over the weld and identifying protruding seams Edge parts, unfolding the so that the crystals from lead compounds of good two tracks and leveling the weld seams through transparency, high refractive power and high a repeated welding process without uneven reflectivity, are in particular connected to each other,
special hexagonal, basic lead carbonate crystals In the production of the projection screen and that these leaflets are predominantly parallel 60 one expediently so that one first stalls the Kri- and at small acute angles to the viewing surface immediately after their cultivation in the z. B. on a diffusely reflective, white pigments, e.g. B. made of nitrocellulose protective coating a-titanium dioxide-containing base layer applied teigt, these putty crystals are in the production. the projection screen in a colorless varnish, z. B.

By combining the regulations leaflet 65 polyvinyl lacquer, enters and then this mixture

shaped crystals of good transparency, high Re- applies to the carrier web or the intermediate layer,

Flexibility and high refractive power The application of the crystals containing

and arrangement predominantly parallel and under layer in several layers has the advantage that

small acute angles to the visible surface on which the crystals partially overlap at their edges

diffusely reflective white base layer was a 70 and thus part of the crystals small acute angle

Claims (9)

5 6 against the visible surface of the screen and the diameter about 6 μ. It can, however lock in. Another advantage of this process, conglomerations of neighboring crystals take place, lies in the fact that the crystals develop due to the surface tension in such a way that leaflets up to 20 μ in diameter waiting in the respective positions. The strength of such conglomerates, however, is approximately parallel to the visible surface - about 1 μ. The crystals are in the water place. and insoluble in most other liquids The figure shows an embodiment of a and thus extremely suitable, a paint Projection screen according to the invention in magnified in the sense of the present invention added to tem scale in oblique view and section. will. The projection screen consists of the carrier immediately after the crystals are grown Lane 1. This is either through a single lane with a nitrocellulose solution and butyl acetate formed or consists of several mixed together. The proportions are about joined sheets, such as fabric or polyvinyl 25% basic lead carbonate, 10% nitrocellulose chloride, solution and 55% butyl acetate. In the latter case, the screen consists of a 15 The mixture should be made immediately after manufacture Plurality of juxtaposed edge to edge, the crystals are made as in this thermoplastic polyvinyl chloride sheets. The fall of the individual crystals without mutual joining is done in such a way that the sticking together are evenly distributed. That superimposed tracks initially at a mixing of the crystals immediately after their Her-edge provided with a weld to ensure the 20 position that the crystals with a to unite both tracks with each other, then the protective cover is provided. On the outside of the weld seam, the mixture is used to produce the layer The edges are cut off, the two webs finally in crystals of basic lead carbonate, nitroeine Spends level and edging on the cut cellulose and butyl acetate in a polyvinyl chloride a second weld is applied, in such a way, given 25 varnish, which consists of 92% polyvinyl chloride and that these edges and thus the weld seam in 8% polyvinyl acetate in a ketone or aroma one Level tracks in the longitudinal depression consists of hydrocarbon, is pressed between the two tracks so that there are z. B. 0.7 kg of nitrocellulose, basic a single sheet of approximately uniform thickness containing lead carbonate and polyvinyl acetate and to form invisible seams. 30 schung distributed in about 3.4 kg of polyvinyl chloride paint. For umbrellas of smaller dimensions, e.g. B. under The total mixture thus produced is then on 18 m wide, you will see the intermediate layer 2 of the carrier web 1 as a top of a plastic film operate about 0.33 mm. Apply a layer for larger umbrellas. The topsheet 3 is made up of purpose foils with a thickness of about 0.5 mm are made up of several overlapping or overlapping foils. 35 interlocking layers. Layer 3 has The material from which the webs are made is moderate with a total thickness of about 20 to 25 μ. the functional of white color. The individual layers can be applied in any way to the coverings the carrier web 1 will be worn hanging on one. The usual way is that of the up-frame Od. Like. Arrange and then first spray using an automatic Apply white pigment layer from a Ge 40 sprayer, especially when it comes to it Mix of about 5% titanium dioxide, a lacquer binder, is to support webs 1 of large dimensions consists of polyvinyl chloride and polyvinyl acetate. The prove. applied intermediate layer 2 has a thickness The crystals of the basic lead carbonate can of about 10 μ. After completion, it will also be used with other inorganic or organic ones a coating 3 is provided. This consists of 45 crystals mixed together. moderately from several superimposed lacquer As can be seen from the drawing, overlap layers. The paint is preferably colorless. Each of the individual hexagonal crystals made of basic single lacquer layer representing the total layer 3 lead carbonate. The one crystals are parallel to the contains crystals of high refraction and Re carrier path 1, other crystals again in different flexibility. The crystals are expediently at an acute angle to the plane of the carrier web. the of lamellar or flake-like shape. Arrangement of the individual shown in the figure A coating or crystals produced in this way, which is achieved in that a The coating has a shiny or white appearance, liquid suspension in a plurality of and even if it is applied at an acute angle, the following spray phases, it is preferable d. H. viewed from the side. The reflective 55 noticeably the high reflectivity, even at thanks to this outer layer, it is 25% higher than that of viewing at an acute angle. Aluminum layer, which so far for the same
Purpose was used. The crystals that the lacquer layer3 contains are patent claims: are preferably made of basic lead carbonate. 60 (Formula: Pb ₃ (OH) ₂ (COj) _2. ) 1. Projection screen with an outer on the Crystalline, basic lead carbonate can be obtained in the form of a reflective layer lying on the visible side in such a way that it has a high level of light-embedded crystals in the carrier material, thus having a refractive power of about 2. Such characterized that the crystals of lead compound-lead carbonate is stable up to about 400 ° C. A 65 fertilize good transparency, high refractive stability up to such a temperature is sufficient for power and high reflectivity for practical purposes in the present case. standing leaves, especially hexagonal The synthetically obtained crystals have alkaline lead carbonate crystals, and that these are different sizes, are mostly in the form of hexagonal leaflets predominantly parallel and under small ones and have leaflet shape. The strength is about 1 μ ίο acute angles to the visible surface on a diffuse reflective, white pigments, ζ. Β. Base layer containing titanium dioxide is applied are. 2. Projection screen according to claim 1, characterized in that the carrier web. (1) made of polyvinyl chloride and the intermediate layer (2) made of a mixture of polyvinyl chloride and polyvinyl acetate and about 5 weight percent titanium dioxide. 3. Projection screen according to claim 1 and 2, characterized in that the crystals have a have an average diameter of about 6 μ. 4. Projection screen according to claim 1 to 3, characterized in that the crystals in one Protective cover, e.g. B. made of nitrocellulose, are pasted. 5. Projection screen according to claim 1 to 4, characterized in that the outer, the leaflet-shaped Layer containing crystals has a thickness of 20 to 25 μ. 6. Projection screen according to claim 1 to 5, characterized in that the outer, the leaflet-shaped Layer containing crystals consists of several layers applied one on top of the other. 7. Projection screen according to claim 1 to 6, consisting of several along the edges with each other welded partial webs, characterized in that the partial webs are superposed the same, subsequent welding along the adjacent edges, cutting off of the edge parts protruding beyond the weld seams, unfolding the two sheets and leveling the weld seams another welding process are connected to one another without unevenness. 8. A method for producing projection screens according to claim 1 to 7, characterized in that that the crystals immediately after their growth in a protective coating, for. B. nitrocellulose, brought and in the manufacture of the projection screen in a colorless varnish, z. B. Polyvinyl lacquer, registered and applied in this mixture to the carrier web or the intermediate layer will. 9. The method according to claim 8, characterized in that the application in several layers preferably by spraying on. he follows. Considered publications:
. German Patent No. 594 240; U.S. Patent Nos. 1676 553, 1315 708, 097 269, 2 683 679, 2 115 368, 2 547 220, 2 002 733; British Patent Nos. 288135, 143 748, 084; French patents nos. 733 646, 857 286, 041 419, 1 107 924, 1 003 695, 936 764. 1 sheet of drawings © 009 569/221 7.60