DE1558943B1 - Setting machine for the preparation of minerals with pulsating working fluid - Google Patents

Description

The invention relates to wet setting machines, in which the production of the set pulse of the working fluid through air chambers arranged under the set bed sieve he follows. Wet setting machines of this type are known.

The air chambers, which are open at the bottom, serve to underneath Use of compressed air periodically in and out of the chambers To set the working fluid in oscillating motion within the settling compartment, the sections between the air chambers together forming the flow part of the jig Form under the bed sieve. The top; streamlined. trained walls of the air chambers result with their outsides. a: flow guide zone, the height of which is about half of the length of the flow part and to expand the Flow cross-section is used when the working fluid flows up.

Located between the settling bed screen and the top of the air chambers a calming zone. In this calm zone, the height of which is about a quarter the length of the flow part, the pressure differences are equalized; whereby a uniform distribution of pressure over the entire area of a Settling compartment takes place. There is one above the set-bed sieve of each set-up compartment uniform speed distribution of the pulsating working fluid. this is necessary so that the particles in the setting space are both longitudinal and can layer in the transverse direction under the same conditions. It will also the movement of the material to be set along the setting machine is improved.

- This-typesetting-machine-owns-however in relation to the> length of its. Settling compartments a great height of the "flow through under the settling bed " . In a known setting machine, for example, the height of the flow part is approximately 3.7 times the length of the setting compartment. This large ratio is essentially due to the desired uniform distribution of the speeds of the pulsating working fluid over the settling bed sieve. In order to keep the typesetting machine working properly, however, it is necessary to: to arrange a large number of air: chambers distributed over the entire length of the setzmäschtne. In addition to the resulting increased material expenditure, there is also: the installation of the air and water pipes; the to. each air chamber are to be relocated to be regarded as a disadvantage. The regulation of the vibration conditions of the working fluid in the setting compartments over the length of the setting machine by varying the purging conditions in the individual air chambers also causes difficulties. Furthermore, there is a great gradient between the water level in the settling compartment and that in the air chambers, which reduces the stability of the oscillation process; because a change in the hydrodynamic resistance in the settling compartment strongly influences the flow and does not allow an increase in the initial acceleration of the water, because the pressure at the beginning of the compressed air inlet cannot be fully used.

Attempts have also been made to create a setting machine of the type described Kind with lower relative height of the flow part under the settling bed sieve develop (Tatsuo Y o s s i d a, "Operating results of the Tacub setting machine", magazine "Glückauf", 1959, No. 6, pp. 348 to 350).

The components of the flow part of this jig remained unchanged. The relative height of the calming zone, which in: this..case._ played the main role- the @ distribution of the water flow was almost doubled. Simultaneously the setting compartments were reduced and the number of air chambers in the setting machine reduced.

In this way, the relative height of the flow part of the jig can be reduced by about 1.5 times under the set bed sieve, but it was possible to do so no uniform distribution of the flow velocities of the working fluid can be reached over the area of a seating compartment.

The -invention-is based on the task of a setting machine for processing of minerals to develop, the flow part of which under the settling bed sieve has a smaller one has relative height, with an even distribution of flow velocities of the working fluid (e.g. water) over the settling bed screen over the entire Area of each seating area is sought. In addition, the construction a setting machine with less material and a smaller number of The aim is to set compartments with the same length of the setting machine - from only one Chamber are acted upon, whereby a regulation of the vibration conditions in the working fluid and in the setting compartments over the entire length of the setting machine is made possible. Furthermore, stronger vibrations of the working fluid in the Set compartment and above the set bed sieve with higher ones. Initial accelerations and more stable behavior can be achieved, thereby increasing the performance of the setting machine is increased and a more effective separation of only very different particles Density is achieved, especially when processing ores.

"To solve this task, the setting machine is used for processing of minerals with pulsating working fluid, containing a settled bed screen and underneath in each setting compartment arranged chambers for generating set pulses, the are open at the bottom and closed at the top and are streamlined, .Invention characterized in that each Chamber baffles are arranged, the upper end edges of which are parallel to the chamber center plane run and the space below the set bed sieve between the chamber center plane and Divide the seating compartment wall into sections of equal width and their lower end edges end in distances (il; - 1 ": 1,) increasing from the chamber wall.

In the following the invention is based on an exemplary embodiment and explained in more detail with reference to the drawing.

The drawing shows a section through a setting compartment of the setting machine.

The components of the seating compartment shown are through to Drawing plane vertical surfaces and formed by the housing walls of the setting machine.

The setting machine has a housing (not shown in the drawing) in which a setting bed screen 1 is located. The settling space above the settling bed sieve 1 serves to separate particles of the goods to be processed with different densities and to transport away the separation products. The chambers 2 are located below the set-bed screen 1 and are open on their lower side for the passage of the working fluid (e.g. water). The working fluid is set in pulsing motion inside the chambers 2 with the aid of compressed air.

The pulse is generated in the working fluid and in the setting area with known devices. The type of drive of the jig is therefore not shown in the drawing.

The chamber 2 is inside the individual setting compartments of the setting machine arranged in the middle. The length of the seating compartment is denoted by B in the drawing.

The flow part of a setting compartment of the setting machine is for formation the required vibration conditions of the working fluid. inside one Settling compartment limited by the vertical partition walls 3. The lower part of the Chamber 2 has an almost prismatic shape; the height d of this part is (0.35 to 0.55) B, its length. B is about half of B.

At the lower ends of the walls of the chambers-2-are streamlined bodies 4 attached. The walls of the chambers 2 are inclined towards each other in the upper part and form by their outer sides with the opposite sides of the vertical Partition walls 3 and the housing of the jig together form a flow guide zone c, in which the speed of the working fluid decreases as it flows upwards and increases as it flows downwards.

The height of the flow guide zone c is about 0.3 B. In this zone, two curved guide surfaces 5 are attached along the wall surfaces of the chamber 2 on each side of the chamber 2, which divide the space of each half of the flow guide zone into several sections. The horizontal cross-sections f of these sections are the same at the top, while at the bottom (1i < 12 <13) they increase from the vertical partition 3 in the direction of the chamber 2 by creating an arithmetic series with the base 1i and the sequence of differences (l2- 1, and 13-12). It is characteristic that the distances between the vertical partition walls 3 and the guide surfaces 5 adjacent to them are divided according to the "golden section". This determines the size of the ratio between the base and the difference of the arithmetic series At the outlet of the chamber 2, two guide surfaces 6 are attached in such a way that they divide the working fluid flow and direct it outwards. The guide surfaces have the shape of a cylinder jacket part and serve to guide the working fluid flow. The setting machine has a calming zone a, the height of which is less than 0.1 B , between the setting bed sieve 1 and the tips of the chambers 2. The height h of the flow part under the set-bed sieve is approximately equal to the length b of a set-up compartment of the set-up machine: The optimal length B of a set-up compartment of the set-up machine is 1 m , 4 B.

The setting machine for processing minerals works as follows: The flow part of the jig is filled with the working fluid (water). Then 2 compressed air is let into the chambers, under the action of which the working fluid from the chamber 2 via two channels leading from the streamlined bodies 4 and the guide surfaces 6 are formed, exits. The streamlined bodies 4 prevent vortex formation in the working fluid when it flows around the lower edges of the chamber 2. The flow of the working fluid is separated by the guide surfaces 6. The two Partial currents change their direction by 180 ° when flowing around the streamlined body 4 and move between the vertical partitions 3 and the outer sides of the lower chamber walls up. The flow cross-sections of the working fluid remain almost constant. The flow cross-sections increase mainly in the Flow zone c, the height of which is relatively low.

To ensure an even distribution of the flow velocities over To achieve the entire cross-section, guide surfaces 5 are attached in this zone, by which the working fluid flow is divided into several partial flows, because the guide surfaces 5 cover the entire area of the flow guide zone, which is otherwise one has a large extension angle, in several individual litz zones with smaller extension angles split up.

By the above-described arrangement of the guide surfaces 5, the currents of the working fluid entering from below into the flow guiding zone c redistributed. In the vicinity of the chamber 2, a larger proportion of the flow occurs than in the vicinity of the vertical partition 3. The exit cross-sections are on the other hand f of the individual flow sub-guiding zones are the same at the top.

If you keep the ratio of the dimensions 1i and 1 given above, so becomes an even distribution of the working fluid velocities over the set bed sieve achieved over the entire length of the set bed, with the deviation the speed value is less than 511 / o. Furthermore, there is a uniform Distribution of the working fluid velocities in the longitudinal direction due to the same Conditions for the set pulse generation along the chambers 2. In this way a strong reduction in the relative height of the calming zone under the settling bed screen 1, because this zone plays a role in the distribution of the working fluid flow not a main role and only serves to cancel out pressure differences in the Working fluid.

As a result, the relative heights of the calming zone a and the Flow guiding zone c and the lower part of the chamber 2, which is essentially the Determine the intended flow course of the working fluid is reduced. Significant the relative height of the entire flow part under the set-bed screen is also reduced 1.

When the compressed air is released from chamber 2 (sinking of the working fluid in the setting area) the working fluid flows from the setting area through the same channels back to chamber 2. During the reflux of the working fluid, they will settle the particles of the material to be processed from on the settling bed sieve. Even when flowing back are the working fluid velocities across the set bed screen on the whole Length of the settling compartment evenly distributed as the working fluid flow in the flow guide zone c is narrowed. Then that happens again Upstream the working fluid, as it has already been described above: The uniform Distribution of the working fluid velocities on the area above the settling bed screen 1 and the reduction in the relative height of the flow part under the set bed screen 1 are also used in other exemplary embodiments of the jig for processing retained by minerals. The chambers 2 can be used in the transverse or longitudinal direction Typesetting machine housing as well. in the middle or on the periphery of the seating area to be ordered. There can also be only one guide surface 5 on each side of the chamber 2 can be attached in a setting compartment of the setting machine. It is also possible to Set pulse generation in the working fluid and other devices in the setting room to use, for example, those of the piston type.

Claims (1)

Claim: - Setting machine for processing minerals with pulsating working fluid containing a settled bed screen and below it in each Set compartment arranged chambers for generating set pulses, which are open at the bottom and after. are closed at the top and are streamlined, which are marked, that at the level of the flow guide zone (c). Each chamber (2) guide surfaces (5) are arranged are, the upper front edges of which run parallel to the chamber center plane and the space below the set bed sieve (1) between the chamber center plane and the set compartment wall (3) Divide into sections of equal width (n and their lower end edges towards the chamber wall increasing distances (1i, 12, l3) end.