DE2923842A1 - Appts. for separating minerals from impurities - has container of specified density liq., with smaller two-part container to separate lighter components - Google Patents

Abstract

The separator for laboratory examination of e.g. coal using separation of lighter components in a container is filled with a liquid of given density. The container is used in a float and sink analysis. Into the liquid filled container (1) is inserted a second container (2) of smaller diameter. The second container is of two-part type, releasably locked by a peripheral gripping device. The upper container part (3) has a folding bottom (5), permeable to liquid. The bottom consists of several, foldable parts, actuated by a grip (9) via levers (6), mounted on a linkage (7) above the container edge (8). The linkage may be mounted in guides on the container wall. The lower container part (4) may have a flanged collar (11), into which fits the lower edge.

Description

Separator

The invention relates to a separating device for separating the coal or other minerals from impure components, for example to laboratory-technical Investigations of the coal by skimming off the lighter constituents from one with a liquid of a certain density level filled container in the context of a Swimming and sinking analysis.

Usually a swim and sink analysis is carried out, especially at Laboratory examinations of coal carried out in such a way that in one with a A second container made of perforated metal is filled with a liquid of a certain density or metallic mesh fabric, serving to accommodate the sample Container, is introduced. After subsequent loading with sample material and completion of the subsequent floating or sinking process, the floated sample becomes by means of auxiliary devices which are also permeable to liquids, such as, for example Wedges skimmed off.

Carrying out a swim and sink analysis with the described Establishing is exceedingly time consuming and, moreover, security is due For example, chemical burns are not guaranteed to a sufficient extent.

The invention has therefore set itself the task of providing a device to separate the coal or other minerals from impure components in the frame the swimming and sinking analysis to create a simplification of the working method represents, which can be carried out inexpensively and which meets modern safety regulations when working with corrosive liquids.

This object is achieved in that for use in the container filled with a liquid of a certain density one container smaller Diameter is provided, which can be released via a lock guided around the circumference is designed in two parts, the upper container part with a foldable, liquid-permeable soil is provided.

In the context of the invention, it proves to be advantageous that the lower Container part has a collar-like border that is open at the top to accommodate the lower one Has the container edge of the upper container part.

Further advantages of the invention are described in more detail in the claims.

The technical progress of the invention is based on the fact that in addition to a simplification and acceleration of the individual work processes as well the guarantee of security also the extensive elimination of individual Sources of error, as they often occurred with the previous method, avoided will.

Two embodiments of the invention are shown in the drawings and are explained in more detail below. 1 shows an exemplary embodiment in the device according to the invention, in which the foldable container bottom the upper part of the container consists of two bottom parts; Fig. 2 shows a further embodiment the device according to the invention, in which the bottom of the upper container part consists of four floor parts that can be folded against one another and FIG. 3 shows several sketches to illustrate the functional sequence when using the separating device according to the invention.

In one embodiment in Figure 1 in a side view and partially sectioned separating device consists of a two-part trained container 2, which can be used in a container 1 of larger diameter is, which in turn is filled with a liquid of a certain density level.

The container 2 consists of an upper container part 3 and one lower container part 4, which, as can be seen in detail from Figure 2, over a lock 13, 14, 15 are to be connected to one another.

The bottom 17 of the lower container part 4 is liquid-permeable educated. The further design of the lower container part 4 according to the exemplary embodiments in Figure 1 and Figure 2, for example with feet or a flat floor design is arbitrary.

The lower container parts 4 have, as in turn from FIG. 2 more clearly shows, for receiving the upper container part 3 a collar-like upwards open border 11, in which the lower container edge 12 of the upper container part 3 can be used. The border 11 has openings in which the openings 14 provided pin 13 are insertable. By actuating the linkage 16 are the bolt 15 inserted into the openings 14 and thus provide a secure connection of the container parts 3 and 4.

The container bottom of the upper container part 3 is designed to be foldable. According to the exemplary embodiment shown in FIG. 1, it consists of 2 base parts 5 and can be opened via handlebars 6 and a linkage 7 by means of a handle 9 and close.

The linkage 7 of the handle 9 is in guides 10 at least out a container wall. By pressing down the rod 7 over the handle 9, the container bottom, as indicated by dashed lines in FIG. 1, is closed.

According to the embodiment in Figure 2, there is the container bottom from four mutually foldable floor parts 5, the handlebars 6 and one at the bottom End of fork-shaped split rods are opened or closed against each other.

The separation device according to the invention can be used in various ways Functional steps a to h are shown in FIG. 3 to clarify the sequence. First, the container 2 is in a receiving a liquid of a certain density Container 1 inserted. The sample is then placed in container 2 with the open The bottom of the upper container part 3 is filled. After finishing the swimming and sinking process the bottom of the container part 3 closes by actuating the handle 9 in this way the floating material is separated from the sinking material, as can be seen from sketch b. The inner container 2 of the liquid or the container 1 is then removed (Sketch c), the upper part separated from the lower part, (Sketch d and e), and the upper part of the container 3 is now emptied into a second sub-part sketch f, g, h, and for further processing (Sketch h) put away. The emptied upper part of the container is now opened with Bottom coupled to the first lower part again (sketch e), and in a container 1 is used with a liquid of higher density, here again after the Close the bottom to take over the floating material.

To create a complete swim and sink analysis, these Processes repeated over several density levels in a maximum of 10 to 12 levels.

1 container 2 container 3 upper container part 4 lower container part 5 base parts 6 handlebars 7 rods 8 container edge 9 handle 10 guide 11 border 12 container rim 13 pins 14 openings 15 latch 16 rods 17 container bottom Empty string

Claims (5)

Separation device Protection claims: 1. Device for separating the Coal or other minerals from impure components, for example to laboratory technology Investigations of the coal by skimming off the lighter constituents from one with a liquid of a certain density level filled container in the context of a Swimming and sinking analyzer, characterized in that for use in the with a liquid of a certain density filled container (1) a container (2) smaller Diameter is provided, which is guided by a lock around the circumference is detachably formed in two parts, the upper container part (3) with a foldable liquid-permeable bottom (5) is provided. 2. Device according to claim 1, characterized in that the floor (5) consists of at least two floor parts that can be folded against one another and which are connected via handlebars (6) with at least one arranged on a rod (7) above the container edge (8) Handle (9) are designed to be actuatable. 3. Device according to claims 1 and 2, characterized in that that the linkage (7) of the handle (9) is arranged in guides (10) on the container wall is. 4. Device according to claim 1, characterized in that the lower Container part (4) has a collar-like, upwardly open border (11) for receiving of the lower container edge (12) of the upper container part (3). 5. Device according to claims 1 and 4, characterized in that that the border (11) of the lower container part (4) for receiving at the lower Container edge (12) of the upper container part (3) arranged openings (14) Pin (13) is provided with recesses.