DE188137C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

It may be of great importance in the chemical industry because it is difficult to dissolve To mix salts and liquids for the purpose of forming a new product. In most cases this is only because of this to achieve that the liquids with the sparingly soluble salts by agitators and air blowers, etc. are mixed up. After turning off the agitator then the lighter liquid remains at the top and can be tapped from here while the heavier set sits on the ground and can be let off here. Here, however, you are always from the operator and dependent on a certain time. The latter depends again on the lower or higher solubility of the relevant Salt and the amount of liquid that is associated with it in a given period of time.

The present invention provides a device for mixing and Separating the liquid and the salt in question, by means of which it is possible, the Mixing and separating to achieve completely automatically, as well as the length of time during exactly what the liquid is in contact with the salts. The device is therefore also suitable for water purification. You allowed that through the above liquid entering the mixing container, the salt is taken and with the Liquid can sink to the bottom, with the loosened parts moving with the liquid a container surrounding the mixing space rise again, while the do not dissolved salts sink further down to then be transported back up into the mixing chamber to become.

The drawing shows, in cross section, two devices suitable for this purpose. The apparatus according to FIG. 1 consists of a cylindrical or prismatic vessel a, which runs downwards into a pointed box. A second cylindrical or prismatic vessel b is built into this vessel α , which does not extend to the lower conical part of the vessel a in which the salts are stored. A transport device (pump) ρ is connected to the lower conical part of the vessel α, which picks up the salts stored at the bottom in the container α under the pressure of the liquid column resting on it and creates it upwards into the inlet to the container b. The raw water enters through the pipe r and mixes with the relevant salts as soon as it enters.

The mode of operation is as follows: The salt necessary for a certain liquid is brought into the container α , which is deposited on the bottom of the vessel. The raw liquid now enters through the pipe r and is mixed with the lower part of the salt in question by means of the transport device ρ. It is assumed here, for example, that the salt is heavier than the liquid itself. The container b is
Diameter as in his
built so that the liquid remains together with the salt in question for exactly the time necessary to produce the solution or to purify the water, etc.

now so great in its height

Only then does the liquid leave the bottom of the container b. The lighter liquid then goes up in the space between the containers α and b , while the heavier salt is stored at the bottom of the vessel a , in order to then be pressed again by the transport device up into the container b. If the inflow of the raw liquid is now precisely adjusted, the salt can be held together with the liquid for 10, 20, 30, 40 and 50 minutes, for example, before the salt, which is heavier than the liquid, separates from the latter. If the new product that is being formed is heavier than the liquid, it will go down with it while the liquid goes up. If, on the other hand, it is lighter, it rises with the liquid.

A modification of the apparatus for carrying out the method described above is shown in FIG. 2. Similar to FIG. 1, the lower part of the container a is also designed as a pointed box and is provided with a drain at its lowest point. In the same way as in the previous embodiment , a second container b protrudes into the container a, so far that it is a certain distance above the salts stored in the lower part of the container a. A container c , which is also designed as a pointed box and which holds the sparingly soluble salt, is arranged above the container α. This container c has a closure member d below, which can be designed as a channel, double tap, elevator nozzle, etc., such that BEZW in this channel. the liquid to be saturated enters this closing organ d and, by virtue of its speed, takes with it some of the sparingly soluble salts stored in the vessel c and flushes them into the container b. The distance between the channel d and the lower opening of c respectively. the gap width of the nozzle determines the amount of salt which is carried away by the stream of solvent to b in a certain time. This amount can be precisely regulated by setting the gap accordingly.

From the inlet pipe f, through which the dissolving liquid enters the channel d , there is a small branch at the top to the container c, which is provided there with a tap or valve and allows part of the liquid to run into the container c so that the salt more or less mixed with water, ie becomes thick or thinner, which in turn regulates the outflow to the channel d . Because this channel d opens tangentially into the container b , the water in the container b can be made to rotate.

The salt to be dissolved remains in motion in the container b with the liquid to be dissolved and sinks, because the salt is heavier than the liquid, when it goes down into the conical part of the vessel a, while the liquid rises to the top and at g drains. When the container c is emptied, the sparingly soluble salt is stored at the bottom of the tip of the container α and is drained from here into a lower container k in order to be conveyed back to the container c by an elevator. In the container k , part of the used salt can be renewed and then likewise transported up to the container c .

Claims (4)

Patent-to sayings: 1. Device for dissolving poorly soluble substances or for water purification, characterized by an upright cylindrical or prismatic vessel (b) which is surrounded by a second cylindrical or prismatic vessel (a) with a pointed bottom and an upper outlet for the solution or the purified water , and a conveying device for the substance accumulating in the pointed box-shaped floor space to the upper part of the vessel b. 2. Embodiment of the device of claim I, characterized by a tapered container c arranged above the cylinder b as a collecting container for the substance to be dissolved, and a channel below this container for conveying the substance into the container b by means of the flow of the solution liquid. 3. Embodiment of the device of claim 1 and 2, characterized by a branch of the feed pipe of the solution liquid in the upper container c. 4. Embodiment of the device of claim 1 and 2, characterized by the tangential arrangement of the channel lying below the container c and opening into the cylinder b. 1 sheet of drawings.