EP0034548A1 - Apparatus for obtaining dispersions - Google Patents

Abstract

The present invention relates to a method and a device for obtaining fine and regular dispersions of a divided product in a liquid. The powder and the liquid are brought at constant flow rate into the device at separate points, are put into speed instantly and independently, then come into contact dynamically. The implementation of the method is carried out by means of a turbine (2) composed of at least two non-continuous parts not allowing the return of the products to the center of the turbine, two separate conduits (1,6), the one supplying the powder, the other the liquid, and a dispersion discharge pipe (7). The method and the device according to the invention apply particularly to liquids having a high solvating power with respect to the powders with which they are to be mixed.

Description

The present invention relates to a method and a device for the continuous production of fine dispersions.

It relates in particular to a method and a device for obtaining dispersions of a divided product in the form of powder in a liquid.

It is particularly applicable to liquids having a high solvating power with respect to the powders with which they are to be mixed, for example polymers in the form of powder.

For example, the dissolution of certain spinnable polymers in solution presents great difficulties, this is why it is easier at first to disperse them under conditions where the dissolution does not occur before dissolving them; this avoids the formation of lumps or even the solidification of the powder and the liquid.

Thus, until now, the dissolution of the powdered polyvinyl chloride in the acetone / carbon sulphide solvent mixture has required mixing for several hours in a mixer and must necessarily be carried out batchwise; moreover, the mixture obtained lacked homogeneity, a disadvantage which had repercussions on the quality of the wires obtained.

Attempts have also been made to prepare dispersions according to the method described in French application No. 2 250 564 by first forming a liquid conduit in the liquid in which the powder is to be dispersed, by introducing the powder into the liquid conduit and then by spraying the liquid conduit containing the powder.

However, such a process is not suitable for obtaining dispersions of certain polymers such as those of polyvinyl chloride in the acetone / carbon sulphide solvent mixture: the polymer and the solvent solidify completely blocking the device.

A process and a device have now been found suitable even for obtaining dispersions of certain polymers which, until now, it was not known how to disperse regularly, such as polyvinyl chloride.

• - la poudre et le liquide sont amenés à débit constant dans le dispositif de mélange en des points séparés,
• - les deux composants sont mis indépendamment et instantanément en grande vitesse,
• - ils sont mis ensuite en contact l'un avec l'autre alors qu'ils sont en grande vitesse.

The present invention relates to a process for the continuous production of fine and regular dispersions, characterized in that:

• - the powder and the liquid are brought at constant flow rate into the mixing device at separate points,
• - the two components are put independently and instantly at high speed,
• - they are then brought into contact with one another while they are at high speed.

In general, in order to continuously obtain regular dispersions, it is preferable that the powder is brought to the mixing device by gravity. Preferably, the powder is brought to the center of the mixing device while the liquid is brought to the outside of the same device.

To obtain powder dispersion in a liquid having a high solvating power with respect to the powder, it is preferable that the contact time inside the device is as short as possible, of the order of the millisecond; this time must be all the lower, the higher the solvating power of the liquid vis-à-vis the powder.

In the same way, it is also preferable that the solvent and the powder are brought to respective temperatures such that the solvating power is as low as possible during the operation, to avoid the risks of clogging.

The present invention also relates to a device for obtaining fine dispersions comprising a turbine composed of at least two non-continuous parts which do not allow the products to return to the center of said turbine: a powder supply pipe and a liquid supply pipe in separate points, a dispersion evacuation pipe. Preferably, the latter is placed tangentially with respect to the turbine.

Preferably, also, the two non-continuous parts consist of at least two rows of blades and the powder supply pipe opens into the central part of the turbine while the liquid supply pipe opens at the level of the outer part of it.

Preferably, the plane of the turbine is inclined to promote the flow of dispersions.

Also preferably, the conduit bringing the powder is inclined so that it arrives by gravity.

The process according to the invention has as an essential characteristic the fact that the powder and the liquid are brought into contact dynamically and at high speed. To do this, they must be brought to separate points and set to speed separately before being brought into contact.

Such a method is suitable even in the case of a liquid having a high solvating power with respect to the powder, intended to be dispersed in said liquid.

It is particularly suitable for obtaining dispersions of polyvinyl chloride in a solvent such as the carbon sulfide / acetone mixture. The dispersions thus obtained are fine and regular so that the resulting solutions can then be spun continuously without problem to give yarns and fibers also of regular composition. Furthermore, the actual dissolution can be carried out more quickly and more easily so that the energy required to obtain the collodions is much less.

Finally, it is possible according to this process to obtain more concentrated dispersions than those usually used, also making it possible to save on the amount of solvent used. The concentration limit is determined by the viscosity of the products obtained beyond which they are no longer transportable.

The implementation of the method according to the invention will be better understood with the aid of Figures 1 and 2 which constitute examples of embodiment of the device according to the invention by way of illustration but not limitation.

According to FIG. 1, the polyvinyl chloride powder is conveyed by gravity in the duct 1 arriving at the center of the turbine 2 then immediately set in speed by centrifugal force by means of the blades 3. The solvent is conveyed separately by means of a conduit 6 placed perpendicularly to the plane of the turbine and arrives on the series of outer blades then is put into motion immediately, the powder and the solvent coming into speed contact on the outer part of the turbine 2. This is inserted in a room 4 and actuated by means of the motor 5. The turbine is inclined at 45 ^* relative to the horizontal. The dispersion leaves tangentially to the turbine 2 by means of the conduit 7 and the dispersion is collected by gravity.

FIG. 2 represents a slightly different embodiment of the method according to the invention. It includes a conduit (1) provided with an endless via, placed horizontally bringing the polymer powder to the center of the turbine (2) provided with blades (3) allowing the polymer powder to speed up in the external part the turbine; the conduit 6 allows the direct introduction of the solvent onto the outer blades of the turbine, the two products being dispersed instantaneously by the turbine 2 actuated by the motor 5. The dispersion obtained leaves by gravity by means of the conduit 7 tangentially to the turbine.

The method and the device according to the present application make it possible to obtain, in a very short period of time, which may be as low as a few milliseconds, fine and regular dispersions of variable concentration depending on the viscosity of said dispersions and their ability to be vehicles. For the specific case of dispersions of polyvinyl chloride powder in the solvent mixture of carbon sulfide / acetone (50/50 by volume) with a concentration of 28 to 30% by weight, it even turns out to be possible to obtain dispersions by introducing the solvent-mixture at room temperature, which is of great economic interest.

The examples which follow are given by way of illustration to illustrate the invention.

Example 1 -

The device as shown in FIG. 2 is used, which has been continuously rotated for 100 hours, while introducing polyvinyl chloride powder with a flow rate of 45 kg / hour into the center of the turbine, by l 'Intermediate of a dosing screw and the solvent mixture carbon sulfide / acetone (50/50 by volume) maintained at about 2 ° C at a rate of 115 l / hour on the outside of the turbine.

The device with an internal diameter of 12 cm has an outer row of 12 blades inclined at 30 °; the central blades are simply constituted by a butterfly screw. The speed of rotation of the turbine is 3,000 rpm and the dispersion is produced in about 5 milliseconds at a rate of 160 kg / hour.

The dispersion thus obtained is taken up in a tank and can be used continuously in later stages of treatment.

Example 2 -

In the turbine used in Example 1, polyvinyl chloride powder is introduced separately at a rate of 60 kg / hour and the solvent mixture of carbon sulfide / acetone at a rate of 160 kg / hour at room temperature. The dispersion was produced continuously with a flow rate of 220 kg / hour for 5 hours directly at room temperature.

Claims (9)

1 / - Process for the continuous production of fine and regular dispersions, characterized in that: - the powder and the liquid are brought at constant flow rate into the mixing device at separate points, each of the constituents being brought to a single point, - the two components are put independently and instantly at high speed, - they come into contact with each other dynamically. - The contact time between the powder and the liquid is of the order of a few milliseconds. 2 / - Method according to claim 1, characterized in that the liquid has with respect to the powder a high solvating power. 3 / - Method according to claim 1, characterized in that the powder is polyvinyl chloride and the liquid a solvent mixture of carbon sulfide / acetone. 4 / - Device for implementing the method according to claim 1, characterized in that it comprises: a turbine composed of at least two non-continuous parts which do not allow the products to return to the center of the turbine, one in the center and the other in the outermost part of the turbine, a pipe supplying the powder and a pipe supplying the liquid at separate points of said turbine, respectively at each part of the turbine, - a dispersion evacuation pipe. 5 / - Device according to claim 4, characterized in that the non-continuous parts are constituted by at least two rows of blades. 6 / - Device according to claim 4, characterized in that the conduit bringing the powder opens at the central area and that bringing the liquid opens at the outer part. 7 / - Device according to claim 4, characterized in that the dispersion discharge pipe is placed tangentially to the turbine. 8 / - Device according to claim 4, characterized in that the plane of the turbine is inclined to promote the flow of dispersions. 9 / - Device according to claim 4, characterized in that the conduit bringing the powder is inclined so that the powder.arrives by gravity.

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