Image Colorimeter

A colorimeter includes an objective for focusing an object image on a first half of a viewing screen. A standard light reference beam is projected onto the second half of the screen. A moving shutter alternately blocks the first half then the second half of the screen. A light detector is responsive to the alternating images on the screen as they pass through color filters. The detector output may provide
information of spectral distribution or color deviation of the object, relative to the standard reference. FIELD OF THE INVENTION The invention generally relates to colorimeters, and more particularly to a colorimeter for measuring color and spectrum distribution, based on the formation of an optical image of an object prior to measurement. BRIEF DESCRIPTION OF THE PRIOR ART The 'narrow' definition of color flows from the rules set down by the C. I. E. (International Commission for Illumination) for the measurement of color on flat, uniform, opaque surfaces. It prescribes the 'illuminants' which may be used (A, B, C, and variations thereof) and the angles for incident and reflected light, the latter being collected by a photosensor. These angles are normally prescribed at 45 deg. and 0 deg. respectively. The 'broad' definition of color takes into account the fact that color is a subjective sensation. It therefore associates 'color' with light input to a particular area of the retina. Such light may come from illuminated objects or light sources. It is broken down into three 'stimuli' X Y Z whose value can be derived by integration from the spectrum distribution of the light. This is also true of light collected from reflecting surfaces as in the 'narrow' definition, above. Tristimulus functions are involved in the integration. The 'narrow' definition takes in, strictly speaking, only flat, opaque, non-luminous objects or surfaces. There are similar definitions for 'transmitted' color of transparent objects illuminated from behind, but these do not widen the scope of the definition very much. Conventional colorimeters are based on the 'narrow' definition, which limits the range of objects that can be measured. However, they can be fitted with an 'integrating chamber' which corresponds to another, equally narrow, definition of color. These chambers are so designed that light coming from all parts of the object in all directions is sampled and collected on the photosensor. Use of such devices is somewhat impractical and their light efficiency tends to be low. All colorimeters compare the object to be measured, or 'sample,' with a 'standard' which may be a tile placed on the instrument, or a built-in part: it may be white and identical for all measurements or it may be slightly different from the sample (in differential measurements). This comparison may be carried out in various ways. It may be 'sequential,' in which case the standard is placed on the instrument port first and the instrument is 'zeroed' on this, or stores the values in a memory. After this, the sample is read. Other instruments automatically replace the standard with the sample periodically, with frequency high enough that comparison is 'continuous' for all intents and purposes. In any case, however, the advantage of instrument comparison as against visual comparison, which is still the most popular method, is that the latter cannot tell us how much difference there is, or of what kind (except in a very elementary sense). BRIEF DESCRIPTION OF THE PRESENT INVENTION The present invention is capable of measuring color and spectrum energy distribution, based on the formation of an optical image of the object, prior to measurement. This permits application to a wide variety of products, including some of which do not lend themselves to color measurement with conventional means, such as irregularly shaped, non-rigid or fragmented foods or agricultural products. The present invention utilizes an image method which can provide quantitative visual comparison, as well as automatic continuous comparison. The above-mentioned objects and advantages of the present invention will be clearly understood when considered in conjunction with the accompanying drawings, in which: