FR2941051A1 - Container for analyzing sample of e.g. flour, has elastic unit i.e. buffers, stressing plate to be projected towards interior of cup so as to ensure controlled contraction of product based on function of elastic unit and nature of product - Google Patents

Abstract

The container has a cup (1) and a lid (2) provided with conjugated fixing units formed of ribs (4) and complementary grooves (5). A disk shaped transparent plate (7) is slightly projected towards interior of the cup in closed position. The plate is mounted in an axially movable manner against an elastic unit i.e. damper buffers (9a-9c) made of material. The unit stresses the plate to be projected towards the interior so as to ensure controlled contraction of product (P) based on the function of unit and the nature of product, by the movement of the plate to certain amplitude.

Description

The invention relates to a container for analyzing a sample of granular product, pulverulent or in crumbs and more particularly flour but also particulate products such as bran for example. It is known to measure the properties of samples of granular, pulverulent, or crumb products, especially grain products. In particular, spectroscopic measurements can be made in the near-infrared mode, for example, to know the percentage of moisture or protein of the analyzed product. To analyze a product of the aforementioned type, such as flour for example, it is poured it into a container that is closed by means of a lid and that is available in the device or the device. analysis. For spectroscopic analysis the container and / or its lid has a transparent face for analysis in reflection mode or transmission mode. In any case, the container should be filled with the product which is generally slightly packed. The filling of this type of container is carried out for example manually and directly. However, it has been found that significant differences in the analysis results occur between several measurements of the same sample, made by the same operator and / or performed by separate operators. This disadvantage arises from the manner of proceeding of each operator and to each operation, for example in the manner of pouring the product by compacting it more or less, by pouring it more or less high, etc., which inevitably distorts the results. This is why we imagined a particular device as described in FR-2 908 887 in the name of the same applicant, which device allows to repeat the filling operations under identical conditions, whatever the operation and the operator, whether it is the same operator or successive operators. However, with such a device, the settlement obtained may vary according to the products and it is not easy to obtain a constant density at the time of the analysis. This is why the inventor has imagined, no longer a filling device, but a special container which ensures of itself a controlled settlement of the product to be analyzed.

A conventional container for analyzing a granular or powdery product, especially as described in the aforementioned document, comprises a cup and a lid provided with conjugated means of fixing them, said product to be analyzed being intended to be sandwiched between the bottom of the cup and a plate of the lid which protrudes slightly towards the inside of the cup in the closed position. The plate of the cover integrated therein and which protrudes slightly, is provided to ensure a certain settlement of the product. The bottom of the cup and / or the plate of the cover that can serve as a bottom for said cover are, for example, at least partly transparent material to examine the product between two transparent walls to allow in particular a spectrometric analysis mode transmission. The container according to the invention of the aforementioned type is cons particularly remarkable in that the plate of the cover is mounted slightly axially movable against at least one calibrated elastic means which urges said plate to protrude towards the inside the cup so as to ensure a controlled packing of the product by possible displacement of said wafer of a certain amplitude which is a function of the setting of the chosen elastic means and the nature of the product to be analyzed. For example, the lid has a bottom and the elastic means or means 20 are disposed between said bottom and the movable plate of the lid. According to one embodiment, the bottom of the lid has an annular shape and the movable plate is transparent, or elastic means being disposed at the periphery of the plate to bear on the inner face of the annular bottom of the lid. For example, the resilient means are in the form of one or more damping buffers whose material is chosen according to its elastic characteristics to ensure controlled packing of the product. The invention will be better understood on reading the description which follows and which refers to the appended drawings, in which: FIG. 1 represents in perspective, seen from below, a container according to the invention, provided with its lid,

FIG. 2 is a perspective view corresponding to FIG. 1 but viewed from above, FIG. 3 is a diametral sectional view of the cup of FIGS. 1 and 2 filled with an analyte, FIG. diametrical section the cup of Figure 3 after shaving the product, above which is its lid before fixing to one another,

- Figures 5 and 6 each show the cup of the previous figures, closed by its lid but for respectively two products of different nature. The container shown in the drawings comprises a cup 1 (Figures 1 to 6) and a lid 2 (Figures 1, 2 and 4 to 6).

The cup 1 here has a tab 3 for gripping and manipulation. The cup and the lid are provided with conjugate means of attachment to each other such as, for example, ribs 4 for the cup 1 (FIGS. 1, 5, 6) and complementary grooves 5 for the lid 2 (FIG. 4). The aforementioned fastening means could of course be reversed or any other.

The container is intended to contain a product referenced in the drawings P, P1, P2. The cup 1 is filled with a product P (FIG. 3), which product is flared (FIG. 4) before the lid 2 is fixed on the cup 1 by screwing and co-operating the conjugate means 4 and 5 to obtain a container closed as shown in Figures 5 and 6. Furthermore, the figures show that the bottom 6 of the cup is here a transparent wall, for example glass. Similarly, the cover 2 has a disk-shaped plate 7 also transparent.

The lid 2 has an annular bottom 8 and thus pierced at its center to let a light of spectrometric analysis of the product. As clearly shown in FIGS. 2 and 4 to 6, the wafer 7 of the cover 2 is movably mounted in said cover by means of elastic means in the form of buffers 9a, 9b, 9c disposed at the periphery of said wafer 7 to bear on the annular inner wall of the bottom 8 of the lid.

As already mentioned, FIGS. 5 and 6 show the container previously described but which contains two distinct products respectively designated P1 and P2. As can be seen in FIG. 5, the wafer 7 of the cover protrudes slightly inside the cup 1, causing compaction of the product P1 without displacement or practically without displacement of the wafer 7 against the elastic means under form of buffers 9a, 9b, 9c. In fact in this case, depending on the nature of the product P1, the compression threshold of said means 9a, 9b, 9c is not reached or is slightly exceeded. In contrast, in the example of FIG. 6, the denser product P2 causes compression of the buffers 9a, 9b, 9c and displacement of the wafer 7 towards the inside of the cover. In this way, by properly tamping the buffers 9a, 9b, 9c, that is to say by choosing their constituent materials accordingly, it is possible to determine a compression threshold in order to ensure a controlled settlement regardless of the product to be used. Analyze, as well as a substantially constant settlement of the same product regardless of the operator. It is clear that the elastic means described could be quite different and in particular in the form of a compressible torus or springs, etc.. 20

Claims (4)

CLAIMS1) Container for analyzing a granular, powdery or crumbled product sample (P, P1, P2) consisting of a cup (1) and a lid (2) provided with conjugate means (4, 5) for fixing between them, said analyte being intended to be clamped between the bottom (6) of the cup (1) and a plate (7) of the cover (2) which protrudes slightly towards the inside of the cup in closed position, characterized in that the plate (7) of the cover (2) is mounted slightly axially movable against at least one elastic means (9a, 9b, 9c) calibrated which urges said plate (7 ) protruding inwardly of the cup so as to ensure controlled packing of the product by possibly moving said wafer (7) by a certain amplitude which is a function of the setting of the chosen elastic means and the nature of the product to analyze. 2) Analysis container according to claim 1, characterized in that the lid (2) has a bottom (8) and that the elastic means (9a, 9b, 9c) are arranged between said bottom (8) and the plate (7) movable cover. 3) Analysis container according to claim 2, characterized in that the bottom (8) of the cover (2) has an annular shape and that the wafer (7) is transparent, the elastic means (9a, 9b, 9c) being disposed at the periphery 20 of the wafer (7) to bear on the inner face of the bottom (8) of the annular lid (2). 4) Container according to one of claims 1 to 3, characterized in that the elastic means are in the form of one or more buffer dampers (9a, 9b, 9c) whose material is chosen according to its characteristics 25 elastic to ensure controlled packing of the product. 30