CH669262A5 - Measuring optical density and pixel surfaces - Google Patents

Abstract

Light from the object to be measured is reflected onto photoelectric paths and converted (1) into an electric signal for amplication by an operational amplifier (2). An AC component of the amplified signal is removed by a low-pass filter (6), and the signal is changed again into a digital signal by an A/D converter (3). The amplification of the operation amplifier is altered according to this digital signal. Resistors, connected in parallel between input and output terminals, are connected respectively in series with analogue switches (SW1-SW3) with the exception of one resistor (900R), and are switched on and off in the return circuit (8). A reproduction unit (5) and an operational control unit (4) control the switches (Sw1-SW3). An illuminated table can be used for the measurement.

Description

DESCRIPTION

The subject of the present invention is a compact light source device, in the form of a measurement table, for an optical density / percentage point measurement device, this device having, at one of its corners, a part lighting and having, on its rear side, a housing capable of fully containing a device for measuring optical density / percentage of points, the housing of which mates while engaging the light source device.

The object of the invention is in particular to make it possible to produce a compact and portable assembly made up of a device for measuring optical density / percentage of points, itself produced in a particularly compact form, and of a light source the housing of which has a housing to accommodate the optical density / percentage points measurement device during transport.

To this end, the light source device according to the invention is as defined in claim 1.

The invention will be better understood from the following description, given by way of nonlimiting example, of embodiments of the device according to the invention, with reference to the appended drawing in which: Figures l (a) and (b) show the arrangement of a compact light source device according to the invention; FIG. 2 shows the arrangement of a device for measuring optical density / percentage of points used in combination with the device illustrated in FIG. 1, and FIG. 3 illustrates the way in which the optical density / percentage of points measurement device of FIG. 2 is used in combination with the light source illustrated in FIG. 1, briefly illustrating their functional elements.

Figures l (a) and (b) show the arrangement of a light source device according to an embodiment of the device according to The invention. Figure I (a) is a front perspective view, and Figure I (b) is a perspective view from the rear. The compact light source device has a measuring table part 112 on the upper side of a main body 111. The film to be measured is placed on the measuring table 112. A lighting device 113, on which a circle of 10 mm in diameter appears as a measurement mark, is placed at a corner of the measurement table 112. Light from an integrated light source is directed towards the measurement mark. A switch 114 makes it possible to switch the integrated light source on and off.

A housing X of the percentage point measurement apparatus and a housing Y of light source are formed on the rear side of the main body 111. The housing X of the percentage percentage measurement apparatus has a space in which one can insert the percentage point measuring device. The wall which partially defines this space has a rail 1 liA which adjusts with a groove formed in the housing of the percentage point measuring device. A protruding part 111B is also formed on the wall, the protruding part being formed so as to engage with a concavity formed in the housing of the percentage point measuring apparatus preventing the measuring apparatus from slipping. outside the main body 111. The relative positions between the protruding part and the concavity can be reversed. The light source housing Y houses a battery, a lamp, a reflective plate, a diffusing plate, etc., and it is arranged so as to allow the replacement of the battery or of the other elements by removing a cover 115.

FIG. 2 shows the external appearance of a point percentage measuring device intended to be associated with the compact light source device 111 of FIG. 1. The housing comprises a lower housing part 121, an upper housing part 122 and a battery cover 123.

The lower part of the housing 121 has a groove 121A and a concavity 121B, respectively engaging with the rail 11A and the projecting part 111B of the main body 111 of the device. The compact light source device 110 and the point percentage measuring apparatus 120 are mutually fixed in cooperative association with these elements. Reference numeral 124 designates a detection unit for the introduction of the measurement light.

The upper housing part 122 has a display window through which the measurement result is displayed, a main switch 26 and various other switches 127, 128. A battery cover 123 does not have elements mounted to be actuated.

FIG. 3 represents the way in which the measurement is carried out using the compact light source 110 represented in FIG. 1 and the point percentage measuring apparatus 120 represented in FIG. 2.

The switch 114 of the compact light source 110 is put into the on position in order to connect the battery and the lamp 116. The light coming from the lamp is directed towards the diffusing plate 118 through a reflective diffusing plate 117, having a matte finish, so as to produce a uniform illumination. Thanks to the reflective plate 117 arranged as indicated above, the effective distance between the lamp and the diffusing plate can be made long, which makes it possible to reduce the influence of factors such as a distortion of the reflective surface of the mirror.

The light is directed onto a film 130 placed on the measurement table 112 (FIG. 1) of the compact light source device 110.

The light transmitted by the film 130 is then introduced into the detection unit 124 of the dot percentage measuring device 120 in order to photoelectrically detect the light by means of a detector 129 and then to amplify it by means of '' an AMP amplifier. The amplified signal is then converted into a digital signal by means of an analog / digital converter, this digital signal then being converted, by means of a CPU circuit (central processing unit), into a display signal intended to be sent to a display 125.

When measuring using the compact light source 110 and the dot percentage meter 120, the lighting portion 113 (Figure 1) of the dot percentage meter 120 is aligned with the detection unit 124 of the point percentage measuring device 120. In this case, the point percentage measuring device 120 can be correctly placed on the compact light source device 110 so that a good yield and that the film 120 can be properly inserted between this measuring device and this light source.

When fitting the percentage percentage measuring device 120, the groove 121A is placed under the operator's finger so that the measuring device can be easily manipulated. In addition, one can easily carry out the adjustment of the positioning by observing the measurement mark which is of relatively large dimensions.

As described above, the compact light source device according to the invention is arranged so as to be compatible with a compact point percentage measuring device previously developed by the applicant, so that the functions can be fully used of the percentage point measuring device. This means that the light source device is not only advantageous for the measurement, but is also very useful thanks to the fact that the external dimensions are very small when the percentage point measuring apparatus is housed in the light source device at the during transport.

Claims (6)

1. A compact light source device, in the form of a measurement table, for an optical density / percentage point measurement device, this device having, at one of its corners, a lighting part and having , on a rear side, a housing capable of fully containing a device for measuring optical density / percentage of points, the housing of which mates while engaging the light source device, characterized in that it comprises a housing (X) a measuring device formed on the rear side of a flat surface (112), serving for the placement of an object to be measured, and a light source housing (Y) formed on the rear side of this flat surface (112), for housing the light source elements comprising a battery and a lamp, and optical system means, the light coming from this light source housing (Y) being applied to this lighting part (113) on this flat surface (112). 2. Device according to claim 1, characterized in that the wall of this housing (X) of measuring device has a rail (111A) engaging the housing of this measuring device and a projecting part or cavity (111B ) engaging another cavity or protruding part of the housing of this meter. 3. Device according to claim 1, characterized in that the lighting part (113) is arranged so as to be located on the left side of the operator when performing the measurement. 4. Device according to claim 1, characterized in that the lighting part (113) is provided with a measurement mark indicating the surface in which the measurement is possible. 5. Device according to claim 1, characterized in that said optical system means comprise a reflecting plate and a diffusing plate. 6. Device according to claim 5, characterized in that said reflecting plate has a reflecting surface with mat finish.