DE385369C - Crystallization container provided with hanging bodies - Google Patents

Description

Crystallization tank provided with hanging bodies.

Attempts have already been made to crystallize alkalis, e.g. B. copper or iron sulphate liquor, to be accelerated by placing it in the crystallization vessel Suspended wires or rods. However, a large part of the crystals was always obtained as wall and floor covering that you have to chop off and shovel out. This is because that the solution on the walls and on the surface cools faster than in the Surrounding the suspension body.

Another suggestion to avoid wall and floor crystals consists in that through the heat-insulating side walls and the ceiling of a crystallization vessel so-called Cooling spikes are inserted. The Crystallization on the cooling spikes, but the vessel containing the lye must heated in order to prevent the build-up of crystals on the floors and the side walls will.

The invention also uses one for the walls of the vessel heat-insulating material, but the surfaces on the inner wall are kept completely smooth has so that the attachment of crystals to them can be avoided without that heat needs to be supplied. In the drawing there are several for the present purpose suitable vessel shapes are shown, for example.

The crystallization vessels a either have a rounded base, as Fig. I shows; or are tapered downwards (cf.

Fig. 2 and 3). The suspension bodies b, which consist of wires or tubes, reach close to the ground. Crystal formation takes place under these conditions almost exclusively on the suspension units. Any soil crystals that may form sit firmly in the form of a wedge at the lower end of the wire and can easily be lifted out the suspension body with the remaining crystal mass is removed from the crystallization vessel will. It is useful to have bodies made of heat-insulating materials, z. B.

To bring glass balls, glass rings or the like to the bottom of the container. Instead of several suspension units can of course also be used only one.

You can also find several rounded indentations in the bottom of the vessel with a conical shape into which a hanging body protrudes.

If you want to cool the lye quickly, you can do this by that they can be passed through an inlet pipe g (Fig. 2) below the upper opening of a Insert tube d can enter the space between this and the vessel wall, while the exhausted liquor emerges at the outlet e. This arises as soon as the temperature has decreased by the start of crystallization, close to the Suspension body b, i.e. inside the insert tube d, a buoyancy of the liquid, because this becomes specifically easier as a result of the release of dissolved substances. Simultaneously the liquid will sink on the side walls of the vessel because it here becomes specifically heavier as a result of cooling. So it arises without it Artificial heat supply soon results in a strong circulation of the lye in the area shown in Fig. 2 indicated arrow direction, whereby not only the cooling is accelerated, but also the formation of large crystals on the suspension units is favored.

In some cases, emphasis is now placed on the, if necessary forming bottom crystals separately from the crystals of the suspension body to win. The device shown in Fig. 3 is used for this purpose, in which a suspension body is used, which is a short distance above its lower end with a heat-insulating Substances coated point, which, for example, by pushing a Piece of glass tube c or by coating with enamel, varnish or the like. Is produced. On this suspension body, the crystals set themselves above point c, while the point c remains free of crystals.

The crystals that develop in the deepest part of the soil are thereby prevents them from growing together with the crystals of the suspension element.

At the same time, however, it is also achieved here that the soil crystals can be removed from the vessel when lifting the suspension body because they adhere to the part of the suspension body located below point c.

Claims (3)

PATENT CLAIMS: 1. Crystallization b Containers, the walls of which consist of a heat-insulating material, characterized in that, that the inside of the walls has completely smooth surfaces, so that the attachment of crystals to this can be avoided without the supply of heat can. 2. Apparatus according to claim I, characterized in that the suspension body Reach so close to the bottom of the container that bottom crystals may form know grown together with the crystals of the suspension body, being expediently made of heat-insulating Substances existing body, z. B. glass balls, glass rings o. The like. On the container bottom are brought. 3. With a bottom that is rounded and recessed in several places Container according to Claim I, in which a suspension body is arranged above each recess is, characterized in that the suspension body at a short distance above the the lower end has a point coated with a heat-insulating material, for the purpose of growing together any soil crystals that may form to prevent with the crystals of the suspension body.