HU229615B1 - Hydro-mechanical mixer - Google Patents

Abstract

The invention thus relates to a hydromechanical mixture of powder or granular state material and liquid. The apparatus has at least one mixing space (101) and an inlet pipe member (12) for feeding the powder or granular state material from above into the mixing space (10'). The apparatus is characterised by comprising means for cleaning an inner wall of the inlet pipe member (12). Said means comprise: a cleaning member (14) bidirectionally movable in parallel with the inlet direction along the inner wall of the inlet pipe member (12); and an actuating member (16) for moving the cleaning member (14).

Description

BACKGROUND OF THE INVENTION The present invention relates to a hydromechanical mixing apparatus for producing a powder or particulate mixture of liquid and particulate material having at least one mixing space (10) and a pipe (12) for introducing powder or particulate material into the mixing space (10) from above. The agitator comprises means for cleaning the inner wall of the inlet pipe member (12), which comprises a cleaning member for bidirectional movement along the inner wall of the inlet pipe member (12), which is located in the inlet pipe member (12) its outer wall is spaced from the inner wall of the tubular member (12) and the actuator (16) for moving the cleaning member which is connected to the upper end of the tubular insert (14) projecting from the inlet tubular member (12).

561QR

September 2013

Hydromechanical mixer

BACKGROUND OF THE INVENTION The present invention relates to a hydromechanical mixing apparatus for producing a powder or particulate mixture of a liquid and a particulate material.

There is often a need in the industry to produce a mixture of powder or particulate matter and liquid, such as a mixture of solid phase combustion residues and water from a coal or oil-fired power plant, known as a slurry.

Bridge-rock mixers utilize the kinetic energy of gravity and / or pressure-generated flows. For gravity flows, the mixing of the liquid and solid phases in the gravity space is effected by means of fixed baffle elements, whereas in the case of pressurized flows, the energy required for mixing is generated by pumping the liquid material. Gravity hydromechanical mixing devices are disclosed, for example, in Hungarian Patent Nos. 172,922 and 222,031, which are known in the art as "bridge-mixes" and which are used for the production of slurry,

A common feature of known hydromechanical mixing devices is that they have at least one mixing sphere into which the powder or particulate material is introduced by means of an inlet tube. The hydromechanical agitation of the inner wall of the inlet tubing necessarily results in a smoky deposit. This deposition on the one hand prevents the controlled introduction of the right amount of material and on the other hand reduces the efficiency of the mixing. The additional danger of the deposition is that it can close the entire inlet pipe section and solidify it, thus blocking the technological process. A further hazard is the impulsive, optionally destructive (dust or particulate clusters) of the area in the mixing chamber.

A cleaning device for cleaning lump deposits is described in U.S. Patent No. 5,859,915. The known cleaning device comprises a shaft for entering the tube and a brush at the end thereof, which are actuated by movement. The known cleaning device is not

for in-service cleaning since it substantially fills the cross-section of the introductory component, thus blocking the feed.

It is an object of the present invention to provide a mixing device for producing a powder or particulate mixture of liquid and particulate matter in which the disadvantages of the prior art are eliminated. A further object was to provide a mixing device having a means for cleaning the inlet structure. Another object of the invention was to provide a mixing device which allows the removal of deposits in the elements designed for the material inlet.

The set of his wall is at least one so he believes

: for the production of a powder or granular mixture of liquids having a tubular inlet leading from above to the powder or granular mixing space. The invention is characterized in that it comprises a device for cleaning the inner wall of the inlet pipe element which comprises

- a cleaning element suitable for bidirectional movement along the inner wall of the inlet pipe member, which cleaning member is a tube insert inserted into the inlet tube member, the outer wall of which is spaced from the inner wall of the tube member and is connected to a protruding end of the tube.

A preferred embodiment of the invention is characterized in that the cleaning element is a tube insert inserted into the inlet pipe element, the outer wall of which is spaced from the inner wall of the pipe element and whose upper end protruding from the inlet pipe is connected. The present invention provides a particularly advantageous advantage in the removal of deposits on the inner wall of the inlet tubing by means of a tubular insert.

Another preferred embodiment is characterized in that a flange is connected to the upper flange of the tube insert, to which a plurality of bi-directional piston cylinders are evenly distributed in the periphery. and compensator casings that prevent rotation between the tubing and the tubing insert or between the tubing insert and the tubular member to allow for flexible movement of the tubing insert. Due to the advantageous handling and wrapping, the present invention can be implemented very simply and efficiently. The lower edge of the tube insert is preferably cleaned

The invention by way of example! preferred embodiments of the invention will now be described with reference to the drawings, wherein

Fig. 1 is a sectional view, partly in section, of a powder or particulate material delivery device according to the invention;

Fig. 2 is a partially sectional view of the air guide of the mixing device of Fig. 1 with cleaning means, and

Figure 3 is a schematic diagram of a further technological arrangement associated with the assembly of Figure 2.

Figure 1 is a partially sectional schematic representation of a powder or particulate delivery system. The dispensing arrangement is preferably mounted on a lid 11 which closes the upper part of the mixing chamber 10. An inlet tube 12 is provided for the introduction of powder or particulate material 4 through the lid 11 to enable the addition of powder or particulate matter.

The bridge-mechanical mixing device according to the invention is provided with means for cleaning the inner wall of the inlet pipe 12. The device according to the invention comprises two movable spraying elements along the inner wall of the inlet tubular element 12, parallel to the direction of introduction of the solids or particulates, and a means for moving the cleaning element.

The crucible member is formed as a tube insert 14 inserted into the inlet tube 12, the outer wall of which is spaced from the inner wall of the tube 12. The sliding protrusions formed on the outer wall of the tubular insert 14, as shown in the figure, are used to maintain the proper rock placement. The at least one actuator 16 is connected to an end of the tube 14 projecting from the inlet tube 12.

By example! In the embodiment, a flange 18 is connected to the upper flange of the tube insert 14, to which three flanges are uniformly distributed in its circumference.

There is a conduit 20 or duct 20 for supplying powder or particulate matter, such as dry ash, from the top to the conduit 14 to prevent condensation of the conduit 14 and the conduit 14 and the conduit 12. Moving in a simple manner 22 secures the tube insert 14 and maintains a tensile compensator which may be used in the mixer.

The compensator-u'uüswscsiwrs salt is provided with a slip and cleaning coating on its surface.

In the exemplary embodiment, air is introduced into the mixer 24.

Preferably, the lower edge of the tube insert 14 is provided with an anti-deposition edge. The edge is preferably formed as a tapered etching of the inner wall of the rain pad 14.

During the mixing, the inner side surface of the tube element 12 produces mud-like mud, which can be removed by cyclically moving the tube cartridge 14 up or down. The cleaning can also be supplemented with a possibly cyclically compressed air type, whereby the air blast

The tube element 12 and the cleaning element, so that the removable grabs on the surfaces are made of stainless steel, are easily slidable,

Fig. 2 is a partially sectional view of an air outlet of the mixing device of Fig. 1 with a cleaning device, for the removal of gaseous material in the mixing chamber 10 ', preferably mounted on a duct formed in a roof 11a enclosing the mixing chamber. In a preferred embodiment, the tube 30 is also provided with means for cleaning its inner wall. Preferably, the device comprises a tubular cleaner 32 formed from its helical treads and a support element, preferably a handle, extending from the tube head 30, preferably a handle,

matter extractor is 3o

The air containing the dusty slurry drops up through the nozzle 30 from the mixing tank. The mud formed by the dust and sludge droplets unloaded in the tube head 30 is removed by the tube cleaner 32. By regularly operating the rainhead cleaner 32, the vacuum in the mixing tank is maintained continuously, avoiding deposition of tents. Both the pipe to be cleaned and the cleaner can be made of stainless steel for cleaning. The air cleaner 32 of the air intake of the mixing nozzle is movably secured to the closing cap of the tube 30. By dismantling the cover, the cleaner 32 can be pulled out for maintenance.

Figure 3 schematically illustrates a further technological arrangement associated with the assembly of Figure 2. As shown in the figure, the exhaust pipe 36 is preferably connected to a dust separator 40 via a safety air inlet valve 38. The dust separator 40 may conveniently be a bag dust filter. In the event that the oscillator head 30 is lost due to a failure of the tube cleaner 32, the vacuum in the dust separator 40 is increased. A safety vent 38, also known as a draft breaker, protects the dust separator 40 and prevents undesired vacuum.

From the dust separator 40, the powder enters the washer 44, where it is mixed with the water supplied through the wash water inlet 46 to form a dust slurry. Depending on the powder to be treated, the dust slurry may be alkaline or acidic. The dust slurry 48 is guided through a line 48 to the mixing space 10 '. The return air may conveniently be provided through the nozzle 30. A suitable suction for the dust separator 40 is provided by a fan 42 which conveys the exhaust air to the environment via a vent 43.

With air extraction

in order to quickly remove air entering the mixer during operation, to prevent carbonation due to the C € b content of the air and to reduce the slurry produced by mixing

The hydromechanical mixing device according to the invention thus has a means for cleaning the inlet of dust or particulate matter, and preferably a means for cleaning the vent. With these measures, the hydromechanical mixing equipment

disadvantageous to insure.

did not break

The invention is, of course, not limited to the preferred embodiments shown, but to the figures

The invention

defining stone with a single mixing chamber for cleaning openings in the same mixing chamber, it is also possible to apply the invention to equipment having multiple mixing spaces, in which case a means for cleaning the inlet pipe is connected to a so-called pre-mixing device part. and the tool for cleaning a f

Of course, the cleaning means described in the figures can be designed not only in the manner shown. Exemplary well-designed air blowing can advantageously be used to increase the efficiency of the cleaning.

Claims (4)

• χ Freedom to produce a powder or particulate mixture of material and liquid having a mixing space k and a tube inlet for powder or particulate material from above, characterized by a means for cleaning the inner wall of the tube member (12), comprising: 12) a cleaning element for moving λϊ parallel to the insertion direction, the insertion member being an inlet duct (14), the outer wall of which is located at a distance from the wall of the tube member 12, and a moving member (16) for moving the fistula element; ) is connected to an upper toilet protruding from the inlet pipe (12). Mixing device according to Claim 1, characterized in that a horn (18) is connected to the upper edge of the rain pad (14), to which a plurality of bi-directional piston pistons are uniformly distributed in the circumference. Mixing device according to claim 2, characterized in that a pipe (20) for introducing the powder or particulate material is inserted from above into the pipe insert (14) and the pipe (2.0) and the pipe insert (14) and the pipe week There are compensator covers (22) between the (14) and the tubular member (12) to prevent dusting and to allow the tubular member (14) to be moved flexibly. A mixing device according to claim 1, characterized in that a cleaning edge is provided on the lower edge of the tube insert (14). (3 sheets drawing,