DE8310962U1 - Projection device for a microfilm reader - Google Patents

Description

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AGFA-GEVAERT Aktiengesellschaft D-5090 Leverkusen Patent department

eh-se 1273C

Projection device

The invention relates to a projection device for a microfilm reader with a light source and a Deflection mirror.

Such projection devices are known. In order to reduce the heat radiation emitted by the projection lamp keep away from the original projection become vertical heat absorption filters facing the beam path and / or cold light mirrors arranged at an angle to the beam path are used. In the latter there is the mirror surface Iampense1t1g on the substrate. This arrangement requires that when using an absorption filter and a cold light mirror two brackets and above all requires two relatively expensive substrates are. With a compact construction of the device also etching problems, especially if an additional Cooling should be done by a stream of air.

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It is the object of the invention to provide an apparatus of the
to create the genus mentioned at the beginning
the same thermal insulation, less material and less space
is needed.

According to the invention this is achieved in that the
Deflection mirror made of heat-absorbing glass with a
on the side facing away from the light source : ■ there is a reflective layer. ■

The now only substrate thus serves both M Purposes. Because of the double passage of light ff

the heat filter can make this correspondingly thinner Ii

gwanIt will be provided, provided that the _: <

Heat takes place through ventilation. |

The mirror layer applied to the rear can be applied to 1h- | rer surface adjacent to the air effective against? Corrosion protected so that it is possible, too
inexpensive coatings, like a silver layer, too
use.

Details of the invention emerge from the subclaims and the description, in which several embodiments are discussed below with reference to the drawing. j tert be. Show it )

F1g. 1 schematically shows a conventional projection device,

F1g. 2 schematically the projection device according to the invention,

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FIg. 3 the reflection behavior of an inventive Rear surface mirror with an aluminum cover as a reflexion,

F1g. 4 the reflection behavior of an inventive Rear surface mirror with an aluminum layer and an additional matching layer as a reflective layer,

F1g. 5 the reflection behavior of an inventive Rear surface mirror with a Kai real mirror layer as a reflective layer,

F1g. 6 the reflection behavior of an inventive Rear surface mirror with a silver layer as Reflective layer.

Figure 1 shows schematically a conventional light arrangement a projection system. Where L is the light source, with K a condenser lens, with A an absorption filter and with G a glass substrate with a mirror layer S denotes. Such arrangements are, as explained above, known and widespread.

Figure 2 shows the corresponding device according to the Invention. The absorption filter is no longer required. Therefore The substrate for the mirror layer SR is a heat absorbing one Glass W. The mirror layer SR is applied to the string facing away from the lamp L. Consequently the light goes through the glass twice, whereby the optical one Path length due to the inclined passage in the usual 45 ° arrangement about three times the sub-

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stratdicke corresponds to * In contrast, comes with the conventional Arrangement with the vertically interspersed filter just shows the thickness to its best advantage. The Absorp tion is therefore much higher for the same material. The increased heating of the filter is due to the cooling, Which is not discussed in more detail, should be taken into account sight.

Since the effective side of the filter layer SR on the Back of the substrate W cherishes, yours may be adjacent to air The surface can be effectively protected against chemical corrosion. So it is possible to use a simple silver or use A1um1n1wsch1cht and thus achieve approximately the same spectral relationships as with a relatively complex Kai light mirror layer system.

FIG. 3 shows the spectral remission behavior of a rear surface mirror according to the invention. The substrate consists of a heat protection glass "KG 1" with a thickness of 1 mm. The mirror layer consists of Aluminum,

FIG. 4 shows the spectral remission behavior of a Mirror according to Figure 3, in which additional matching layers serve to increase the reflectivity in the visible range.

Figure 5 shows the spectral rupture behavior of a further rear surface mirror according to the invention. The substrate here also consists of a heat protection glass "KG 1" with a strength of 1 ram. The game

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geical layer consists of a known cold

I high mirror vision system.

; Figure 6 shows the spectral remission behavior of a

fiv further rear surface mirror according to the invention. That

I ^I substrate here also consists of a heat

; ^r protective glass "KG 1" with a thickness of 1 mm. The game

<gel layer consists of a silver layer.

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Claims (3)

•• II> ti ι • ι α · • · ■ • · te · claims 1. ^ Projection device for a MkrofilmlesegerSt ^ with a light source and a deflecting mirror, characterized in that the deflecting mirror consists of heat-absorbing glass (U) with a Rsflexionsschient (SR) applied to the side facing away from the light source (L). 2. Projection device according to claim 1, characterized in that the reflective layer (SR) a Kai real mirror layer 1st. 3. Projection device according to claim 1, characterized in that the reflective layer (SR) a layer of silver 1st. Projection device according to claim 1, characterized characterized in that the reflective layer (SR) is an aluminum layer. Projection device according to one of the preceding claims, characterized in that the reflective layer (SR) is covered with a protective layer against chemical corrosion. In addition 5 sheets of drawings AG 2799 DE
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