DE3329711C2 - Lighting and imaging system for an image reproduction device - Google Patents

Abstract

An optical original lighting and image generation system comprises a light source illuminating the original and an optical system for generating an optical image of an original which is illuminated by means of the light source illuminating the original by incident light reflected from the original on an imaging surface. A thermionic cathode ray luminescent tube is used as the light source illuminating the original and an imaging element comprising a lens array of miniature or micro-roof mirrors with reflecting surfaces which are perpendicular to one another and at a distance from one another which corresponds to a distance at which the rows of the microlenses are arranged, and a ray changing part are used as the imaging optical system. The luminescent tube and the imaging element are connected to one another in such a way that the light reflected from the original falls on the imaging element.

Description

this light source can be made particularly compact and flat. Because the luminescent tube is the immediate Forms the support surface of the template, despite effective lighting of the template, the space between the original and the imaging system can be kept very small

In that the thermionic cathode ray luminescent tube is on the housing above the light inlet opening is arranged so that the light inlet opening is closed or closed by its luminescent tube. is covered, is a particularly compact design not only favored but it is also achieved that the light inlet opening is effective is closed to the outside, so that thereby the imaging system inside the housing not can collect dust.

Particularly advantageous refinements and developments of the invention emerge from the subclaims 2 to 5.

In the following, the invention will be described in greater detail on the basis of exemplary embodiments with reference to the drawing explained it shows

F i g. 1 is a sectional view through an imaging system incorporating features of the invention;

F i g. Figure 2 is a schematic representation of an example of the spectrographic sensitivity of an image receiving element equivalent size;

F i g. 3 is a cross-sectional view through another embodiment of an imaging system with features according to the invention;

Fig. 4 to 6 diagrams showing light emission (energy) characteristics the phosphor layers of the fluorescent tubes that can be used in a system are in which an image receiving element having the mode shown in FIG. Spectrographic sensitivity shown in Fig. 2 is used, and

F i g. 7 is a cross-sectional view through one embodiment of an imaging system of an electrophotographic Copier in which the invention is provided.

The invention will now be described in more detail by way of preferred embodiments with reference to FIG the drawings described. In Fig. 1 shows an embodiment of the invention which is shown in FIG a scanning system of an original reading section of a facsimile system or a digital copier is provided. The lighting and imaging optical system comprises a thermionic cathode ray fluorescent tube 5, which is attached to a housing 17 of the imaging system in such a way that of the original 3 reflected light onto the light inlet opening 22 of the image generation system 18 is equivalent Size falls with the roof mirror lens assembly. An original feed roller 23 is arranged so that they against a central part of the upper surface of the glass cover of the fluorescent tube 5 presses, and the image receiving element 2 is attached to an imaging surface on which an image is generated by the imaging system 18 is formed from the light reflected from the original 3.

While the original 3 is conveyed by the feed roller 23 on the glass cover 10 of the luminescent tube 5 is, it is (3) illuminated with light from the phosphor layers 9 and reflects the light which is on the image forming system 18 falls to then form an image on the image receiving element 2. That generated The image is then converted into an electrical signal and processed accordingly

Fig. 2 shows the spectrophotoelectric sensitivity characteristics of amorphous silicon used as a photoelectric converting material for the image receiving member 2. As shown in Fig. 2. 2 can be seen clearly has nm maximum sensitivity near a wavelength of about 600 this material. When the Lumineszenzröhre as the material for forming the phosphor layers 9 are used 5 phosphorus containing one of the isotopes P 12, P38 and P 6 which each has a light emission spectrum energy distribution as shown in one of the FIGS. 4 to 6 and has a maximum energy distribution in the vicinity of a wavelength of 600 nm (JEDEC standards) can be read with a high degree of efficiency.

A microlens array that acts as an illumination and optical imaging optical system The imaging system used has a lower degree of chromatic aberration than that SLA arrangement so that the band of the light emission spectrum of the phosphor layers can be enlarged and a light emission spectrum of the light source corresponding to the sensitivity distribution of the image receiving element can be set. As a result, the use of the microlens array is very advantageous.

By using the thermionic cathode ray luminescent tube As a light source, the length and thickness of the light source can be reduced compared to a conventional fluorescent lamp, so that a compact overall size is then obtained in a lighting and imaging optical system can be. When using this type of light source it will be less compared to a halogen lamp Consumes energy and generates less heat. The use of the thermionic cathode ray tube Compared to an arrangement of light emitting diodes, facilitates the manufacture of a Light source with a great axial length.

In Fig. 3 is another embodiment of the lighting and imaging optical system according to FIG Invention shown used in a document reading device. The in F i g. 3 illustrated embodiment differs from that in FIG. 1 embodiment shown in that the image receiving element attached to the housing 17 of the imaging system 18 to the housing from the outside to isolate. By forming the image receiving element 2 in one unit in this way, assembly is facilitated, since no adjustments are required after the unit is attached to a reference plate 26 of the scanner When the image receiving element 2 is attached so that it is in one of the plane of FIG. 3 is displaceable in the vertical direction, its replacement is also facilitated. The execution in which the Image receiving element 2, the housing 7 insulated from the outside, has the advantage that this prevents is that dust and moisture enter the optical system.

In Fig. 7 shows a further embodiment of the invention, which is in an exposure device of a electrophotographic copier is used. The thermionic cathode ray luminescent tube 5 for illuminating the original 7, which is arranged on a glass plate 27 moving in the direction of the arrow is attached to the imaging system 18 with the roof mirror lens assembly. A photosensitive Drum 28 is related to the imaging

transmission system 18 arranged in such a way that the drum 28 in a suitable location by means of the imaging system 18 is exposed with an image of the original 3. Around the photosensitive drum 28 arranged around it are a charger 29, an exposure area, a developing device 30, a transfer copy charger 31, a cleaning device 312 and an unloader 33, all of which are known and are cited in FIG Order are arranged in the direction of an arrow which points in the direction of rotation of the drum 2il, so that electrophotographic copying can be carried out.

When the original 3 and the photosensitive drum 28 are moved in synchronism with each other, can scanning and illuminating of the original 3 is effected, thereby on the photosensitive drum 28 to generate an electrostatic latent image of the same size as that of the original 3. That on this Wisely formed latent image is then processed by a known method to produce a copy.

From the above description it can be seen that the lighting and imaging optical system according to the invention has the advantages that it has a compact size and characteristics with a good Another advantage of the system according to the invention has resolution and a high degree of light utilization is that the cost is lower because of the glass plate holding the original and the glass cover for the imaging system formed by the roof mirror lens assembly can be dispensed with can and thereby the assembly is facilitated.

By using a thermionic cathode ray luminescent tube As a light source, the light intensity of the light source can be increased without changing the amount of light emitted. Since the Luminescent tube has a low energy consumption, the amount of heat generated is small. These Art light source therefore has a long service life and can do without maintenance.

For this purpose 2 sheets of drawings

45

Claims (5)

ι 2 support surface can be placed and claims from below: can be illuminated by a light source, the light reflected from the original to a picture 1. Lighting and imaging system for a generation system is transmitted. The image formation image reproduction apparatus, especially for a Ko- 5 system contains a roof mirror arrangement for stranpiergerät, with strip-shaped scanning of the original deflection of the light reflected from the original, with a transparent support surface for the tes, furthermore a microlin template arranged in the beam path, with a row of lights illuminating the original with associated roof mirrors, their reflective source and with an optical image generation system, surfaces are perpendicular to one another, wherein stem to generate an optical image of the front io the roof mirror the same center-to-center distance as the milage, wherein the imaging system includes: possessing lenses. Also is an image receiving element one of the reflected light from the original is available, on which the image of the original is mapped mende roof mirror arrangement for beam deflection, the elements of the imaging system in kung, a microline arranged in the beam path in a common housing with a row of light entry ports with associated roof mirrors, their re-opening and arranged with a light exit opening inflected surfaces are perpendicular to each other. That part of the imaging system that is inuno which roof mirror is arranged the same center-to-center distance within the housing can be combined like the microlenses own, and with an image with the housing in a compact building receiving element, on which the image of the original are wisely executed. However, to use the template in is imaged, the elements of the image generator 20 to be able to illuminate sufficiently, the must system in a common housing with a light source either between the transparent layers Light inlet opening and with a light display surface of the template and the said housing opening are arranged, thereby be arranged, or the light source must next indicates that the housing will be arranged, the two 25 design options, however, take up a relatively large amount of space a) the light source is claimed from a thermionic ca, and thus a particularly compact one method ray luminescent tube (5, 9, 10) construction of the entire lighting and imaging is systems is not possible. b) the luminescent tube (5,9,10) the immediate- From US-PS 39 12 392 is an optical system for re contact surface of the template (3) forms, and 30 generating images of a template known on c) the thermionic cathode ray luminescent a transparent support surface for the template (5) on the housing (17) above which is arranged, also a light source for loading light inlet opening (22) is arranged in such a way that illumination of the template is used, which is used as a separate the light inlet opening (22) through which the Lute component has to be produced and installed. That minescence tube (5) closed or over-35 known optical system comprises an optical image cover is. generation system to produce an optical image from the template to generate, this imaging system also 2. Lighting and imaging system, if necessary, a roof mirror arrangement for the radiation reversal 1, characterized in that the thermioning and a microline niche arranged in the beam path Cathode ray luminescent tube (5) has a 40 sen series. The lenses are known from this one Is tube having light passage. ten construction in a continuous straight line 3. Lighting and imaging system in a row next to one another. Each lens of the microlens array Claim 1, characterized in that the housing is assigned a roof mirror in each case. Finally at- (17) of the image generation system for holding the, the known arrangement also includes a Bildsen image receiving element (12) is formed. 45 sor in the form of a light-sensitive peripheral surface of a 4. Lighting and imaging system based on the Anner drum, on which the image of the original is depicted claim 3, characterized in that the image is. catch element (12) the housing (17) towards the outside Finally, from DE-OS 26 16 630 an electrical isolated. photographic scanning system for electrophotography 5. Illumination and imaging system known from anphische devices. The optical system contains Claim 1 or 2, characterized in that, in addition to a roof mirror arrangement, for radiation umlenthermionische Cathode ray luminescent tube effect a lens with a plan (5) arranged behind it fixed to the housing (17) of the image generation system, these elements in a common stems is connected, and that the Lichtaustrittsöff- housings are arranged. The housing has a tion of the luminescent tube (5) the light entry opening 55 light entry opening and also a light exit opening of the housing (17) forms, voltage. Also achieved with this known construction a light source independent of the housing for connecting Turn. The object on which the invention is based is SlCIlI üanii, a lighting »- and AubildüiigSSySicf The invention relates to a lighting and imaging device of the specified type Development system for an image reproduction device, in particular to be improved in such a way that it is highly efficient others for a copier according to the generic term of the image generation in a particularly compact design Proverbs 1. can be executed. From DE-OS 3106 539 is already a lighting 65 The solution to this problem results from the characteristic processing and imaging system for an image reproduction drawing part of claim 1. device with strip-shaped scanning of the original. By using a light source in the form of a knows, in which the template on a transparent ner thermionic cathode ray luminescent tube