DE3407834A1 - Appliance for mixing a foreign gas or a foreign gas and a foreign liquid with an absorption liquid - Google Patents

Abstract

The object of the invention is to improve the intensity of the mixing process. To this end, a gas space is formed in the mixing rotor of the appliance between an upper row of vanes and a lower row of vanes, which gas space is hermetically sealed in the axial direction against the rows of vanes and connects the axial intake orifice for the gas and a radial gas discharge orifice.

Description

Device for mixing a foreign gas or a

Foreign gas and a foreign liquid with a receiving liquid The invention relates to a device for introducing a foreign gas or a foreign gas and a foreign liquid into a receiving liquid, and for intensive mixing of the foreign gas or the foreign gas and the foreign liquid with the receiving liquid.

A device for the above purpose is shown in HU-PS 180 647. This device has an immersed in the liquid in the operating state rotating part and a motor coupled to this part. The rotating one Part is through an impeller - with an appropriate vertical shaft arrangement - and with Executed one lower and one upper row of wings each. The upper row of wings features via an axial suction opening connected to a gas suction pipe and one with this Suction opening connected radial gas outlet opening. In the area of the lower row of wings are each a radial inlet opening and outlet opening between the neighboring Wings arranged. The upper and lower row of wings are separated by a liquid and gastight partition separated from each other.

This embodiment has proven itself in practice, some However, there were deficiencies. The main shortcoming is that of the intensity the mixing of the foreign liquid or the foreign gas with the receiving liquid or with each other not reached the maximum achievable because the liquid flows or the gas streams enter the receiving liquid separately and their energy is already reduced before the effective mixture. Hence the efficiency the facility lower than desired. In addition, the facility has a relatively complicated structure and associated high manufacturing costs at large Weight and difficult handling.

The invention is intended to provide a remedy here.

An object of the invention is to provide a simple means of insertion a foreign gas or a foreign gas and a foreign liquid into a receiving liquid and for intensive mixing of the foreign gas or the foreign gas and the foreign liquid to create with the receiving fluid; in the case of supplying both a foreign liquid as well as a foreign gas, the liquid flow and the gas flow should be combined be introduced into the receiving liquid, so that the intensity of the Mixture increases and the energy requirements of the facility can be reduced.

The task set, a device for introducing a foreign gas or a foreign gas and a foreign liquid into a receiving liquid and for intensive mixing of the foreign gas or the foreign gas and the foreign liquid with the receiving liquid is produced according to the invention by a device solved, the rotating immersed in the receiving liquid in the operating state Part and having a motor coupled to this part, the rotating motor Part as an impeller - with preferably a vertical shaft arrangement - with one at each vertical shaft lower and upper row of wings is carried out. The impeller has further via an axial suction opening connected to a gas suction pipe and a with this connected radial gas outlet opening, furthermore via at least one each radially inner and outer between the adjacent blades of the upper and lower Wing row designed further inlet opening and outlet opening and over one axially formed between the upper and lower row of wings, of the Vane rows in the axial direction hermetically separated and the axial suction opening to the Suction of the gas with the radial gas outlet opening connecting Gas compartment.

The statements "above" and "below" used in the following relate on the preferred embodiment with a vertical drive shaft of the impeller. the However, the shaft can also be inclined to a greater or lesser extent, or to a certain extent Cases even run horizontally.

For these cases, "above" and "below" are to be interpreted accordingly.

In a preferred embodiment of the device according to the invention is the gas space by a lower end plate and one with a central, the Intake opening forming inlet opening provided upper end plate limited.

According to a further embodiment, the outer edge of the lower and / or upper row of blades in the radial direction outside the with the gas space connected radial gas outlet opening.

It is also advantageous if the wings of the lower and / or upper Wing row through lower and upper U-legs of connected U-shaped elements are formed.

It is also advantageous if a locking ring under the lower Wing row and / or is arranged above the upper wing row.

In a further preferred embodiment, the closure ring is made up of segments separated from one another by axial gaps. Advantageously are these segments as starting from the impeller axis in at least one Area widening elements carried out.

It is also beneficial if the wings of the lower and or upper row of blades than extending from the impeller axis in at least one area widening elements are carried out.

The invention is described below on the basis of several possible embodiments Illustrative drawing explained in more detail.

It shows: FIG. 1 a schematic side view of a top driven Device, partially in section, Fig. 2 is a schematic side view of a device driven below, partially in section, Fig. 3 is a section through a closed impeller used in the device according to FIG. 1 or FIG. 2, FIG. 4 is a plan view of the impeller according to FIG.

3, FIG. 5 a section through an open impeller, FIG. 6 a plan view on the impeller according to Fig.

5, FIG. 7 a section through a half-closed impeller, and FIG. 8 is a plan view of the impeller according to FIG.

7th

As can be seen from Figure 1, the inventive shown there Set up a motor 1, on whose stub shaft protruding downwards a coupling 2 is connected to a vertical tubular shaft 3.

The tubular shaft 3 is arranged concentrically in a stationary tube 5 and stored via two bearings 6.

The upper end of the fixed tube 5 and the motor 1 are open a holding device 7 shown schematically mounted.

The lower end of the fixed tube 5 is closed and that the upper end of the same is provided with a gas supply 8 at the side. Part of the fixed tube 5 below the gas supply 8 is below the surface of a Receiving liquid 14 is arranged.

The receiving liquid 14 can e.g. Gas sucked in via the gas supply 8 can be, for example, air. The tubular shaft 3 has Via an additional, slot-shaped opening 9 in the area within the stationary Tube 5, preferably near the lowest point of this area.

At the closed lower end of the fixed tube 5 protruding lower end of the tubular shaft 3, an impeller 4 is attached, which according to Figures 3-4, 5-6 or 7-8 can be designed differently. The establishment according to Figure 2 differs from that of Figure 1 by the engine 1 at the bottom of a containing the receiving liquid 14 and shown only schematically in the drawing Container is arranged and a vertically upright suction tube 11 instead of the rotating Having tubular shaft 3, the upper end of the suction tube 11 over the surface the receiving liquid 14 protrudes and the lower end of the suction tube 11 is central directly above the wedged onto the upstanding shaft stub of the motor 1 Impeller 4 is arranged. The lower end of the suction tube 11 is held by a bracket 12 attached to the housing of the motor 1. To this Motor housing is connected to a pipe 13 sucking in the foreign liquid, with the foreign liquid can also be, for example, activated sludge (in wastewater treatment facilities) can.

The impeller 4 can also in this case according to FIGS. 3-4, 5-6 or 7-8 can be freely designed.

During the operation of the devices according to Figures 1 and 2 sucks the impeller 4 driven by the motor 1 via the suction pipe 11 or via the Tube shaft 3, the fixed tube 5 and the gas supply 8 air, and over the tube 13 and via the inlet openings shown below, foreign liquid or Absorbing liquid and injects this together in the radial direction at intense Touch and mix into the receiving liquid.

The impeller 4 in Figures 3 and 4 has a through an upper End plate 15 and a lower end plate 17 arranged parallel to it Gas space 23 on. Both end plates 15, 17 are circular disk-shaped elements with the same diameter. The upper end plate 15 is circular with a central one Provided cutout which forms an axial suction opening 16 and with an axial Intake pipe stub 24 is connected. The intake pipe stub 24 stands with the pipe shaft 3 or with the suction pipe 11 in communicative connection. The lower end plate 17 is a completely closed circular disk-shaped element.

On the end plates 15 and 17, wings 19 are e.g.

attached by gluing or soldering. The wings 19 are U-shaped Elements, the upper leg of which is horizontally above the upper end plate 15, whose lower leg horizontally under the lower end plate 17, and its web attached in the radial direction outside the edges of the end plates 15, 17 is. The lower parts of the wing 19 form a lower wing row 26 and the upper parts of the wings 19 form an upper wing row 27. The wings 19 extend spirally curved in the direction of rotation shown in FIG. 4 by arrow A inside. An upper closure ring 28 is on the upper row of wings 27 at their Wing edges arranged and a lower end ring 18 is under the lower wing row 26 arranged on the wing edges. The end rings 18, 28 are to the end plates 15, 17 parallel, preferably plate-shaped elements, the diameter of which is that of the End plates 15, 17 surpasses and those with a central circular opening 20 provided with a diameter that exceeds the diameter of the suction opening 16 are.

The impeller 4 according to FIGS. 3 and 4 sucks the gas through the suction opening 16, and the foreign liquid and / or the receiving liquid through the openings 20 a. The one between the lower and upper row of wings 26 and 27 at high speed The liquid flowing out takes this out of the gas space 23 via the gas outlet opening 25 gas escaping due to the suction effect and enters together with the gas the receiving liquid 14.

Leave the intensely mixed parts from the gas and the liquid the impeller 4 through the radial outlet openings between the U webs of the blades 19th

The impeller 4 according to FIGS. 5 and 6 differs from that in FIG. 3 and 4 from the fact that no end rings 18 and 28 are present and the radial inner edge 22 of the wings 19 at an acute angle to the end plates 15, 17 employed extends radially inward.

The impeller according to FIGS. 7 and 8 differs from that in FIGS. 3 and 4 insofar as on the upper and lower edges of the wings 19 are not uninterrupted End rings 18 and 28, but segments 29 are connected.

Each wing 19 has a segment 29 in the upper and lower Area between which axial gaps 30 are formed. The segments 29 are designed as elements widening radially outward, one side of which the line of the associated wing 19 follows and its other side to the adjacent one Wing 19 is equidistant.

The inclined section 22 of the wings 18 or

the radially outward widening of the segments 29 prevents the fibers in the foreign liquid from getting stuck on the impeller 4 and supports their flying out of the spaces between the wings 19.

The foreign liquid or the receiving liquid can optionally be a suspension be. The radial direction is not each used to be perfect in this specification understood tangential or axial direction. An axial direction also means any direction that is not perfectly radial or tangential.

With the aid of the device according to the invention, foreign liquids and / or foreign gases introduced into a receiving liquid with better efficiency. The introduced foreign liquid and / or the foreign gas are in the receiving liquid very favorably dispersed, mixed or dissolved.

An intense negative pressure is created in the device according to the invention caused by the liquid flow accelerated by the rows of blades, the one designed between the two rows of wings, but of these separate Gas stream is sucked in vigorously. The device according to the invention can be used in the field water purification and wastewater purification, to mix in air, oxygen, Ozone, chemicals, suspensions or for the expulsion of gases, flotation, for the separation of solid and liquid phases or for fermentation be used.

The application is more closed in homogeneous pure liquids Impellers, and the application in fibrous and solids-containing liquids open or semi-closed impellers are recommended.

Claims (8)

Device for mixing a foreign gas or a foreign gas and a foreign liquid with a receiving liquid Patent claims device for mixing a foreign gas or a foreign gas and a foreign liquid with a receiving liquid, with one in the operating state in the receiving liquid submerged rotating part and a motor coupled to this part, wherein the rotating part as an impeller - preferably with a vertical shaft arrangement - is executed, which has a row of blades on each axial side, and with one with a gas suction pipe connected to an axial suction opening and a suction opening with this connected radial gas outlet opening as well as further with at least one radially inside or outside, rows between the adjacent wings of the wings formed inlet opening and outlet opening is provided, characterized in that that between a row of wings (27) and the other row of wings (26) one of the flight rows (26, 27) hermetically separated in the axial direction and the axial Suction opening (16) for the gas with the radial gas outlet opening (25) connecting Gas space (23) is formed. 2. Device according to claim 1, characterized in that the gas space (23) axially from an end plate (17) on one axial side and one on the other Axially arranged end plate (15) is limited, in the center of which the suction opening (16) is formed. 3. Device according to claim 1 or 2, characterized in that the radially outer edge of one and / or the other row of blades (26, 27) radially outside the radial gas outlet opening (25) connected to the gas space (23) lies. 4. Device according to one of claims 1 to 3, characterized in that that the wings (19) of the one and the other row of wings (26, 27) through the U-legs are formed by contiguous U-shaped elements. 5. Device according to one of claims 1 to 4, characterized in that that on the axially outer side of a row of wings (26) and / or the other row of wings (27) an end ring (18, 28) is arranged. 6. Device according to claim 5, characterized in that the end rings (18, 28) through axial gaps (30) separate segments (29) are constructed. 7. Device according to claim 6, characterized in that the segments (29) as widening in at least one area starting from the impeller axis Elements are executed. 8. Device according to one of claims 1 to 7, characterized in that that the wings (19) of one and / or the other row of wings (26, 27) as different from the impeller axle is designed in at least one area widening elements are.