RO87773B1 - Reflection densitometer - Google Patents

Abstract

Reflection densitometer presents an improvement of the invention of the patent RO 87499. obtaining a construction without moving parts, the optical device of the densitomeir contains the body a light source, disposed axially and a mount comprising standard selection filters, in the form of circular sectors and some photovoltaic cells, with spectral characteristics, corresponding to standard filters. selecting the measuring channel is switched electronic.

Description

The present invention relates to a reflection densitometer, which is an improvement of the invention of patent 87499.

The invention which is the subject of patent 87499 presents an optical densitometer which contains a housing, a light source, a filter holder, which can rotate around an axis and a photovoltaic cell, at which the electrical signal is applied to the electronic processing circuit. a switch.

This solution has the disadvantage of the mechanical change of the filters, which determines that the measured values are affected by errors due to the games, inherently presented in any mechanical transmission system, which worsens the repeatability.

At the same time, the use of a single photovoltaic cell has the disadvantage of the difficult selection of some types of photovoltaic cell, which correspond from the point of view of the spectral sensitivity, throughout the visible field.

The densitometer according to the present invention removes these disadvantages, in that, in order to obtain a simple, robust construction, optically isolated and without moving parts, it uses an optical device, formed from a metal housing, provided inside with a truncated surface, on which is supported a transparent bush, which contains on the outside a mirrored truncated surface, having axially disposed the body of the lighting source, and above it a mount, in which an anti-caloric filter is disposed, some standard selection filters, having the form of circular sectors, and some photovoltaic cells, respectively placed above the corresponding filters and separated by them, through a transparent disk, the signal conductors being connected to a switch.

An embodiment of the invention is given in connection with FIG. 1 ... 3 which represents:

FIG. 1 is a longitudinal section through an optical device according to the invention;

- fig. 2, view through section A-A of fig. 1;

FIG. 3 is a diagram of the connection of the optical device to the measuring block of the densitometer.

According to the invention, the device consists of a metal housing 1, cylindrical in shape, the inner surface of which is processed by means of a truncated surface, on which is supported a shell 2 made of a transparent material and on the axis to which is fixed a body 3, of the light source. In order to collect the reflected light rays and to concentrate them on the surface of the photoelectric transducer, on the outer truncated surface, chosen at a convenient angle, a metallic film 4 is applied, which constitutes a mirror surface. Above the transparent bush 2, there is provided a mount 5 in which are located an anti-heat filter 6, several standard filters 7, a transparent disk 8 and an opaque support 9 on which four tofovoltaic cells are fixed 10. The mount 5 is positioned at a distance from the bush 2, so that the reflected rays are received on a circular crown, delimited by the dotted circles a, positioned axially and having an area of dimensions comparable to the radius of the mount. The filters 7, whose spectral band is chosen in correlation with the shades of the typographic inks, used in the offset technology, are in the shape of a quarter circle and are fixed in the frame 5, symmetrical to the axis of the housing 1, between the anti-caloric filters 6 and a transparent disc 8 so that the reflected light beam of conical shape is projected simultaneously, through these filters, on the four photovoltaic cells 10 having the same spatial distribution as the filters 7.

Housing 1 is closed at the top by a lid 11.

In order to obtain, at the output of the photovoltaic cells of electrical signals comparable in level and having similar characteristics, the photovoltaic cells 7 will be chosen so that their spectral characteristics correspond to the spectral domains specific to the standard selection filters 7, in front of which they are the respective photovoltaic cell 10.

for the purpose of selecting the measuring channel of the densitometer, respectively the successive switching of the photovoltaic cells to the linear selection scheme formed by a displacement register 12, having a number of cells corresponding to the number of photovoltaic cells used, at the output of which pulses generated by pressing a key are applied 13.

The outputs of the displacement register are connected by means of amplifying devices 14, respectively to the coils of relays 15.

The electrical connections between the alignment blocks D, respectively of linearization F, described in the main invention, and the photovoltaic cells 10 are made respectively by the relays contacts 15. The measurement channel is selected by pressing the key 13 a number of times, corresponding to the connection order. of the channels at the output of the displacement register and the sequence of preset functional states. The selected channel is optically indicated by electroluminescent diodes 16 disposed in relation to the amplifying devices 14.

The densitometer according to the invention has the following advantages:

- simple and robust construction;

- uniform spectral sensitivity, throughout the entire measuring range;

- easy and safe handling in operation.

Claims (2)

claims 1. Densitometer by reflection, which is an improvement of the main invention of the patent 87499, characterized in that, in order to obtain a simple and robust construction, it uses an optical device, formed by a metallic housing (1), provided inside with a truncated surface, on which a transparent bush (2) rests, which contains, on the outside, a mirrored truncated surface (4), having axially the body of the light source (3), and above it a mount (5) in which there is arranged a filter (6) anti-lime, some standard selection filters (7) in the form of circular sectors, and some photovoltaic cells mounted on an opaque support (9) placed respectively above the filter (7) correspondingly separated by them. a transparent disk (8), the signal conductors being connected to a switch (C). 2. A reflection densitometer according to claim 1, characterized in that, for the purpose of choosing the measuring channel, it uses an electronic scheme consisting of a displacement register (12), at the output of which it is connected, by means of amplification devices ( 14), some relays (15), through which the contacts are made between the corresponding photovoltaic cells (10) and the alignment circuits (D) and linearization (F), of the measuring block, the selection of the channel being made by pressing some keys (13).