NL8700709A - Powder sample transporter for IR analyser - automatically delivers, compresses sample before irradiation and cleans itself before next sample - Google Patents

Abstract

A sample of the powdered material is held in a circular tray (21). The tray has a flat base which can be lifted out. A horizontal mechanism (12) moves the tray across a plate until it is centred above a vertical cylinder (9). A piston (11) in the cylinder moves upwards, together with the cylinder, lifting the base of the tray and the powder sample. The sample is pressed up against the underside of a circular window (6) which is transparent to infra-red radiation. The pressure exerted by the piston is determined by a spring mechanism (13) in the cylinder raising mechanism (14). After the infra-red exposure, the sample and its tray base are lowered and removed. The window (6) is then rotated by a motor shaft (7) and its underside is cleaned by rotating brushes (8), in readiness for the next sample.

Description

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Title: Apparatus for positioning powdered samples for analysis according to the reflection method.

The invention relates to a device for positioning powdered samples for analysis according to the reflection method.

According to the technique known in practice for infrared analysis, powdered samples are poured into a container with an infrared radiation-transmitting bottom. The container is then manually leveled and closed.

The holder is then placed in an analysis device in the reverse position, after which the actual reflection measurement 10 takes place through the then upwardly directed window.

A drawback of the known technique is that many manual operations are required before and also after the actual measurement.

Another drawback is that the reproducibility of the measurement due to the manual filling of the container often leaves something to be desired.

There is therefore a need for an apparatus for positioning powdered samples which obviates the above drawbacks.

For this purpose, according to the invention, a device of the above-described type is characterized by a horizontal window which allows the analysis radiation to pass through; a flat plate spaced below the window and provided with a passage opening; a vertical cylinder 25 with an open top, which in the rest position lies in the passage opening and in the plane of the flat plate; a piston placed in the cylinder which, in the rest position, is slightly below the top edge of the cylinder; a sliding member slidable over the flat plate and the passage opening for sliding an amount of sample material into and over the passage opening when the cylinder and the piston are in the rest position; drive means for simultaneously raising the cylinder and the piston% '·,; · 4 ν' • ’k.

-2- until the cylinder rests against the window, the driving means being arranged such that the piston in the upper position of the cylinder is brought under an upward bias, and the piston in the lower position of the cylinder can be brought into an intermediate position in which the top surface of the piston lies in the plane of the flat plate.

In the following, the invention will be further described with reference to the accompanying drawing.

Figure 1 shows a container according to the known technique; and Figure 2 schematically illustrates an exemplary embodiment of a device according to the invention.

Figure 1 illustrates the known manual method of positioning powdered samples relative to an analyzer.

The sample is hereby poured onto an infrared-transmitting window 1, which is contained in an annular vessel 2, of which it forms the bottom. The excess of the sample is streaked off and then the top of the keg is closed with a lid 3 by means of a twist or bayonet closure. On the inside of the lid is a cover plate 4 which, by means of a spring or rubber plate 5 located between the lid and this plate 25, presses the sample against the window with a certain bias. This bias is necessary because the infrared analysis requires a uniform density of the sample to be examined by reflection. After the vessel 30 has been closed, it is placed upside down in the analyzer, after which the actual reflection measurement takes place through the then upwardly directed window. The window must be cleaned continuously between measurements.

Figure 2 schematically shows an exemplary embodiment ij / I. "i tï« V * * «) r" V. " Of a device according to the invention.

A rotatable circular window 6 of infrared-transmitting material is located at the measuring point of an analysis device (not further shown). The actual measuring plane is located on a segment of this window outside the center. The window can be rotated around an axis 7 by means of, for example, an electric motor. This makes it possible to rotate another segment of the window underneath the measuring point 10 again and again and to rid the previous segment of adhering sample residues by means of a rotating brush 8 / or with a vacuum system.

Below the measuring location is a vertically movable cylinder 9, which can take two positions: an upper position with the opening against the window disc 6; and .

a bottom position with the opening lying flat with a plate 10 through which the cylinder moves.

The top position of the cylinder 9 is indicated by broken lines 20.

There is a piston 11 in the cylinder, which can take three positions. In the lower position shown, the top of the piston is situated a few mm below the plate 10. When the cylinder is also in the lower position, a kind of recess 20 is created in the plate, into which the base M can be slid and flattened by means of a horizontal transport mechanism 12. The sample can be located in a container 21 without a bottom.

If the cylinder and the piston now move upwards simultaneously, the contents of this recess are brought against the window. Subsequently, by means of an extra force, the piston with a certain pretension can move the f · '* "* · T * - *

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Press the sample against the window, for example by means of a spring 13 which is tensioned by a slightly larger stroke of the piston driving mechanism 14. After the measurement, the piston and a little later the 5 cylinder move downwards. The cylinder occupies the bottom position, the piston the intermediate position, both with the top flat with the supply and discharge plate.

The analyzed sample can now be spread on the plate, by means of the aforementioned feed mechanism 12 or by a specific discharge mechanism.

It is noted that after the foregoing various modifications are obvious to the skilled person.

The described device can thus also be adapted for, for example, granular or fibrous samples.

Furthermore, the device can be arranged for analysis with other types of radiation. Such modifications are considered to fall within the scope of the invention.

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Claims (5)

Device for positioning powdered samples for analysis according to the reflection method, characterized by a horizontal window permeable to the analysis radiation; a flat plate placed at a distance below the window and provided with a passage opening; a vertical cylinder with an open top, which in the rest position lies in the passage opening and in the plane of the flat plate; a piston placed in the cylinder which, in the rest position 10, is slightly below the top edge of the cylinder; a sliding member slidable over the flat plate and the passage opening for sliding an amount of sample material into and over the passage opening when the cylinder and the piston are in the rest position; Driving means for simultaneously moving the cylinder and the piston upwards until the cylinder rests against the window, the driving means being arranged such that the piston is brought under an upward bias in the upper position of the cylinder, and that the piston in the lower position of the cylinder, it is possible to move into an intermediate position in which the top surface of the piston lies in the plane of the flat plate. 2. Device as claimed in claim 1, characterized in that the horizontal window is a part of a plate rotatable about a vertical axis. Device as claimed in claim 1 or 2, characterized by a cleaning member cooperating with the underside of the window. b 7 v · '0? -6- Device as claimed in any of the foregoing claims, characterized in that the sliding member comprises a tray without a bottom placed on the flat plate. 5. Device as claimed in any of the foregoing claims, characterized in that the sliding member is adapted to slide away sample material lying on the piston when the piston is in the intermediate position. ü 7 0 Cl 7 n o