DE1294301B - Foam flotation cell - Google Patents

Description

1 2

The patent application P 1458 608.4-24 (German ordered, upward wing 16 χ ver-Auslegeschrift 1 285 423) concerns a foam flota- see. A cylinder 17 protrudes from the support beam 13 after tion cell with a stirring device and an air supply pipe and 18 surrounding the bottom to a point above the cover part above the stirrer shaft, wherein it surrounds the shaft 14 concentrically. The a fixed cover member close to the wing 5 cover 18 is rad immediately above the impeller 16 of the stirring device is arranged and disposed and has a central inlet opening central inlet opening, thereby marked 18 α and a non-perforated, outwardly It can be seen that the upper part 18 b , which is opposite the solid suspension, is on. A hub-like version over the entire length dense air supply pipe binding part 19 is attached to the lower end 17 χ of the up to the central inlet opening of the cover part io cylinder 17 and the upper part 18 b of the cover part and has a smaller diameter 18 attached, for example welded. It can be arranged as the central inlet opening of the cover part and also detachably, in which case a passage other intermediate parts are rigidly attached to the cover part 18 and the constriction for the solid cylinder flowing to the impeller with the sides of the inlet opening. Forms in interchangeable suspension. 15 sockets of the connecting part are several narrowed The essential feature of this arrangement consists of openings 19 α provided. These sockets consist in that the opening in the cover part, through which the preferably made of rubber or other solid suspension flows to the impeller, is a highly wear-resistant material. The openings 19 α form is narrow, as a result of which a high flow constriction for the liquid column to the impeller 16 builds up above the opening. Through the resulting 20 flowing solid suspension,
hydrostatic pressure is a seal. From the openings 19 α pipes 20 go out, which acts so that any escape of gas through this the solid suspension to the openings 19 a opening is prevented, even if a counter pressure lead obliquely upwards until below the liquid occurs in the area of the impeller. surface. A thinned one enters these tubes 20

It is the object of the development of the invention to provide 25 solid suspensions, which are mainly finer improved holder for the cover to contain granular solids and arrives at create the action of the hydrostatic impeller where it is mixed with fizzy gas and Pressure when the fizzy gas meets and then as a foamed suspension of the wing-solid suspension to increase. wheel flows away.

This object is achieved by the fact that the exhaust gas is held in large quantities in the cylinder 17 by a holder for the inflow and flows in at its lower end 17 χ at the lower end of the air supply pipe , where there are several narrowed inlet openings of solid suspension with the fixed openings entering through the openings 19 α. Appropriately, the substance suspension is mixed. Inlet openings then flows through a flow line, the air-suspension mixture of which is at least as large as the inlet opening 18 α through the central flow capacity on the bowl-shaped surface of the inlet openings. Any inlet of the impeller 16.

Opening have a flow line whose The impeller rotates at high speed and

The flow capacity is at least as large as that caused by the proximity of the wings to the cover part

the associated inlet opening. 4 ° violent beating and mixing when the

As a result of the further development of the invention, bubbling solid suspension is

It is sufficient for the cover part to be driven particularly stable by fugal force against the periphery of the wing

is performed and the hydrostatic pressure is applied to several. During this process, however, there is a risk of

Orifices is effective, whereby a particularly that a back pressure occurs, which prevents the penetration of

results in a good gas seal. 45 gas through the openings 19 α into the tubes 20

The inventive feature will be able to work on hand. But since the flow capacity of the

some embodiments, the tubes 20 in the drawing is larger than that of the openings 19 α in

are shown, explained in more detail. Connection part 19, occurs in the pipes 20 more solid

F i g. 1 is a vertical section through one in a fabric suspension as through the narrowed open-

Foam flotation cell built-in improved effervescence 50 voltages 19 α can flow, so that over this open

device, and a high column of liquid stands.

F i g. 2 is a vertical partial section through a die solid suspension and the effervescent gas

another embodiment of the effervescent device. flow together through line 17, so that the

The foam flotation cell consists of a suspension before the outlet through the opening 18 a flat bottom 10, a vertical rear wall 11 55 is enriched with air. This suspension is and a vertical front wall 12, the upper part of which is then hit by the wings 16 χ and mixed, is angled and in a foam over- and the gas flows evenly inside-Iauflippel2; c in fine bubbles. The component that distributes the half of the solid suspension. The high drive elements, and control devices. The like. Wears is in a liquid column in the tubes 20 loading on the öffsich known manner at the upper part of the cell 60 voltages 19 act α a counter Firms such as occurring, but in the present example is not illustrated pressure contrary, so that the gas is only put together with. A plate or a support beam 13 is indicated as the solid suspension peripherally from the upper part area. A shaft 14 is in a different impeller can escape,
Sealed bearing provided on the support beam 13 - Due to the fact that no pressure losses occur as a result of an arrangement 15 rotatably mounted and protrudes downwards 65 counterpressure, the gas flow can be with up to directly above the cell bottom 10.

A cup-shaped impeller 16 is set at the lower desired strength.

The foam flotation cell according to FIG. 2 operates at the end of the shaft 14 and is attached radially

in a similar way. However, the feed for the solid suspension to the openings 19 a is different. Unless details of the cell structure are specifically explained, these correspond to the structure of the cell in FIG. 1. The cell also consists of a base 10, a vertical rear wall 11 and a front wall 12 16. From a gas inlet pipe 21, the fizzy gas flows past the openings 19 α ίο to the impeller 16, as has already been described.

The cover part 18 corresponds to that of the embodiment according to FIG. 1. It has a central inlet opening 18 α, while the rest of the upper part 18 a has no openings. A connecting part 19 is arranged at the lower end 17 χ of the cylinder 17 and attached to the upper part 18 b of the cover part 18. In this version, too, the lower end ends

17 χ of the cylinder 17 above the narrowed openings 19 a, which converges the solid suspension with respect to the through the central opening

18 a of the member 18 directs gas flow passing therethrough. A tube 30 sits on the upper part 18 b and surrounds the cylinder 17 concentrically in such a way that the solid suspension flows along the outer surface of the cylinder 17 to the openings 19 α .

This arrangement also causes a hydrostatic seal to prevent pressure losses from occurring Prevents back pressure and controls the amount of solid suspension flowing to the impeller. The solid suspension and the gas entering through the cylinder 17 are mixed and together passed through the central inlet port. The gas is then released by beating and mixing in the Area of the impeller evenly distributed within the solid suspension.

In these two foam flotation cells, the cover 18 is on the connecting part 19 with the Cylinder 17 rigidly connected and thus has a stable mount. Since the connector with is provided several narrowed openings for the inflow of solid suspension, results in one particularly good hydrostatic seal, so that the escape of gas through the narrowed Openings is effectively prevented.

Claims (3)

Patent claims: 1. Foam flotation cell according to patent application P 14 58 608.4-24 (German Auslegeschrift 1 285 423) with a stirring device and an air supply pipe surrounding the stirrer shaft and a fixed cover part which is arranged just above the impeller of the stirring device and has a central inlet opening into which the Compared to the solid suspension, the air supply pipe extends over the entire length and has a smaller diameter than the central inlet opening of the cover part and with the sides of the inlet opening forms a flow constriction for the solid suspension flowing to the impeller, with a flow feed line for solids in front of the flow constriction -Suspension is, characterized in that the cover part (18) at the lower end (17 x) of the air supply pipe (17) is held by a holder which has several narrowed inlet openings (19 d) for the inflow of solid suspension. 2. Foam flotation cell according to claim 1, characterized in that the inlet openings (19 α) have a flow feed line (20, 30) whose flow capacity is at least as large as that of the inlet openings (19 a). 3. Foam flotation cell according to claim 1, characterized in that each inlet opening (19 α) has a flow feed line (20, 30) whose flow capacity is at least as large as that of the associated inlet opening (19 α). 1 sheet of drawings