DE2351722A1 - DEVICE FOR GRAIN SIZE ANALYSIS OF SUSPENSIONS - Google Patents

Description

500-21.547P (21.548H) October 15, 1973

SOCIETE COMMERCIALE DES POTASSES ET DE L ¹ AZOTE Mulhouse (France)

Device for particle size analysis of suspensions

The invention relates to a device for grain size analysis of suspensions, the sedimentation of which looks like the Stokes' Law takes place, in particular grain size analysis of brines.

The grain size analysis of brines is part of the labeling, which is necessary for the knowledge of their physical constitution. This marking is used in agriculture and for all major Construction work (building foundations, roads = =.) Exploited. the Number of times to be performed in order to know the nature of a terrain

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Analysis is very great.

Before carrying out the grain size analysis, the fine earth is separated from stones and coarse sands by sieving and the dispersion begins, e.g. B. boiling with oxygenated water to destroy the aggregates, expose the elemental particles and decompose the organic matter.

The actual grain size analysis is then carried out. The sample is poured into a bottle and treated with a dispersion stabilizing agents (cations or anions) and a certain amount of distilled water. One stirs then mix in such a way that the suspension is as homogeneous as possible results. In the suspension obtained, the settling of the particles obeys Stokes' law, i. H. that the settling speed the particle is proportional to the square of its radius. By taking samples at a certain depth and at different time intervals, the particles that make up a have a lower settling rate and consequently a smaller grain size than a given value. The separated shares are generally the following:

Clay: particles with a size below 0.002 mm. Sludge (clay): particles with a grain size between 0.002

and 0.020 mm

very fine sand: particles with a grain size between 0.020

and 0.050 mm

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fine sand: particles with a grain size between 0.050 and 0.200 mm

coarse sand: particles with a grain size between 0.200 and 2.00 mm.

So far the different ones were required for the grain size analysis Operations entirely done by hand, which required a lot of manpower, meant a tedious job and the Decreased reproducibility.

The invention is based on the object of providing a device for Particle size analysis of suspensions, whose sedimentation after the Stokes' law takes place, in particular grain size analysis of To create brines that allow the grain size analysis to be carried out automatically. The main purpose of this device is stirring the suspension, the various removal processes of the fine Carry out proportions and washing of the proportions of increased diameter automatically.

This object is achieved according to the invention in that they has in combination at least one fixed extension piece and a movable pipette, which extension piece consists of one on his Cylindrical-conical bottom end equipped with a locking device Vessel, one opened in the lower part of the vessel in its conical area and connected to a compressed air source Pipe, one in the upper part of the vessel opened and connected to a water pipe and one in the lower part

40981 6 / 09B1

Part of the vessel above its conical area is opened and there is a pipe connected to a suction device and which pipette in its upper part above a part of larger diameter has a float which is displaceable between two layers of constricted diameter of the pipette and one has a suitable shape for closing the pipette in the upper of the two layers, which pipette continues to its upper tube part a vacuum device is connected and attached to a device, its vertical movement in the axis of the extension piece and its horizontal movement is used in a plane in which the lower end of the pipette above the extension piece is adjustable is.

This device preferably has a programming device to the automatic sequence of the analysis work steps.

The invention is explained in more detail with reference to the embodiment illustrated in the drawing; show in it:

1 shows an attachment of the device according to the invention, and

2 shows the associated pipette according to the invention.

The extension piece (Fig. 1) consists of a cylindrical-conical Vessel 1 made of glass or a transparent plastic. A locking system is attached at the bottom of the conical area.

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arranges that from a rubber tube. 2 consists of Can close squeezing between two (not shown) rods, one of which can be fixed and the other movable is. This latter rod can be moved horizontally and will controlled by a hydraulic or electrical device. Of the Closure could also be through a valve system in which the valves are electronically or pneumatically or any other automatic system can be secured, controlled.

The tube 3 for the introduction of compressed air consists of a glass or plastic tube, one end of which is in the axis of the extension piece in its conically narrowed area is open downwards. In Fig. 1, the compressed air pipe 3 penetrates with his the other end the upper part of the extension piece, runs along its wall downwards and ends in a part curved towards the axis. Of course, other arrangements with the same effect are also possible for this purpose, i. H. with introduction of air into the cone-shaped Part of the extension is possible. In particular, the compressed air inlet pipe could also be inserted directly into the lower part of the extension piece; this tube is more flexible by means of Hoses connected to a source of compressed air.

The water supply pipe 4 made of glass or plastic has its opening in the upper part of the extension piece; this tube is flexible through Hoses to a feed network for permuted or demineralized Vasser connected.

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The evacuation tube 5 is also made of glass or a transparent plastic. It opens into the lower part of the extension piece above the conical area, at a point which, according to the embodiment shown, is off the axis of the extension piece lies. For example, with an extension piece with a total height of about 45 cm and a diameter of 6 cm, the evacuation tube ends about 1 cm above the connection point between the cylindrical area and • the conical area of the extension piece. The evacuation tube is connected at the top by flexible hoses to a suction device, which enables the suctioned liquids to be conveyed into the drain or a collector.

The pipette (Fig. 2) has a lower thin tubular part 6, then an enlarged part 7 and a part of smaller diameter 8, which at its upper end has a ground neck 10 with a tube 9 of smaller diameter than the of part 8 is connected.

In the tubular part 8 there is a float 11 which can move between the ground-in neck 10 and a ring of projections 12 which narrow the diameter of this tubular part 8. The shape of the upper part of the float 11 is such that it rests against the ground neck 10 in the upper position of the float and closes the pipette. The ^Ä ear 9 is connected to a vacuum device, for example a vacuum pump. The tube 9 can contain a capillary which serves to diaphragm it and whose length is so

409816/0961

is chosen that m an for a given throughput of the vacuum pump a given suction receives. The pipette (Fig. 2) is attached to a rod (not shown) which extends from an automatic Mechanism can move so that the pipette vertically in the axis of the extension piece (Fig. 1) and horizontally in such a That level lets the lower end of the pipette move outside and is adjustable above the extension piece.

The device also has a programming device, which can be a programming device with a perforated tape or a magnetic tape.

The device according to the invention can have a single extension piece and a single pipette, but preferably comprises a large number of adapters and pipettes (e.g. 20 to 50) that attach to the same water pipes, compressed air pipes, vacuum pipes and are connected to the same vacuum pump and whose operation is controlled by one and the same program.

The function of the device shown is as follows:

The sample to be analyzed is introduced manually into the attachment (FIG. 1) as a mixture with a small amount of distilled water and a dispersant. The rubber hose 2 ' is squeezed between the fixed rod and the movable rod to complete the extension piece. You then set that Analysis program in progress. The program first solves the introduction of compressed air through the pipe 3 in such a way that the

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Sample is brought into suspension by pneumatic stirring. A good dispersion is obtained by introducing a high flow of air at low pressure. For example, a

2
Pressure of 300 g / cm was found to be sufficient for an attachment approximately 45 cm high and 6 cm in diameter. The program then triggers the entry of water through the pipe 4 up to a given volume and then a short pneumatic stirring to homogenize the mixture. The stirring is interrupted and then the sedimentation of the different grain size fractions of the suspension begins.

According to to obtain the desired grain size fraction (Clay or mud) required time (t), the program sets the vertical movement of the pipette (Fig. 2) in motion so that it immersed to a certain depth (h) of the extension piece (Fig. l), and then triggers the vacuum suction on the upper part of the pipette. When the sucked-in suspension hits the lower layer of the Reached float 11, it rises with the liquid until it comes into contact with the ground neck 10 and the pipette locks. The arrangement of the float 11 thus enables the automatic adjustment of the withdrawn liquid volume. The program then triggers the vertical movement of the pipette carrying rod upwards until the pipette is completely out of the Extension piece is out, and then controls the horizontal movement the pipette. After that, breaking the vacuum of the pipette triggered, and the removed portion of the suspension empties into a capsule, depending on the desired grain size

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depending on the program, this process can be carried out one or more times.

After the operations of removing the fine fractions, the program triggers the washing phase for fractions of larger diameter (Sands), which are in the conical area of the extension piece (Fig. 1) have discontinued. Now the suction is triggered on the pipe 5, so that the extension piece is emptied. The fact that the mouth of the evacuation tube 5 arranged above the conical area is, makes it possible to always leave a certain amount of water above the deposit of the sands. Then the Opened water flow through the pipe 4 so long that the extension piece is half full. Then the pneumatic stirring is triggered by means of compressed air through the pipe 3 and interrupted again. The sand portions settle again for a certain time, after which the emptying is triggered again. These various washing processes are repeated several times until clear water is obtained above the settled sand.

When the washing processes are finished, the program moves the movable rod that holds the rubber tube 2 squeezed to open it. The sand deposit is then removed by the flow of the remaining in the lower part of the extension piece Amount of water carried away. You collect the sands in a capsule.

Then the program controls the movement of the moving

union rod that clamps the rubber tube 2 again. This makes the system an extension pipette for a new work cycle ready. You can also wash the extension piece by introducing water through the program add the ^ ear 4 and then drain through the pipe 5. .

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Claims (2)

Pat ent test 1. j device for particle size analysis of suspensions, their Sedimentation occurs according to Stokes' law, in particular Grain size analysis of brines, characterized in that they combine at least one solid attachment piece and one has movable pipette, which extension piece from a on his Cylindrical-conical vessel (l) equipped with a closure device (2) at the lower end, one in the lower part of the vessel opened in its conical area and connected to a compressed air source connected pipe (3), one in the upper part of the vessel open pipe (4) connected to a water pipe and one in the lower part of the vessel above its conical area opened pipe connected to a suction device (-5) and which pipette in its upper part (8) above a part (7) of larger diameter has a float (11) which is between two layers of constricted diameter Pipette is displaceable and one to close the pipette in the the top of the two layers has a suitable shape, which pipette continues at its upper tube part (9) connected to a vacuum device and attached to a device capable of vertical movement serves in the axis of the extension piece and its horizontal movement in a plane in which the lower end of the pipette is above of the extension is adjustable. 409816 / 09. & T 2. Apparatus according to claim 1, characterized in that it is a programming device for the automatic sequence of Has analysis operations. 409816/09