DD143864A1 - METHOD AND DEVICE FOR MIXING FLUID COMPONENT STRUMS - Google Patents

Description

2 j 4 6V

Title of the invention

Method and device for mixing liquid grain pattings

Field of application of the invention

The invention relates to a method and an apparatus for mixing liquid component streams according to the principle of the jet mixer with countercurrent arrangement, in particular for mixing components which react rapidly with each other, such as. B. in the production of Pormkörpern of polyurethane.

Characteristic of the known technical solutions

For a variety of mixing tasks when using liquid components, the principle of the jet mixer with counterflow arrangement has proven to be very favorable. When mixing fast reacting with each other components, the good cleaning ability of the mixing device is of particular advantage.

In contrast, there is the high mechanical complexity required to produce the high working pressures to achieve 'sufficient mixing quality.

An attempt was made to achieve a mixing of the components in the Mischkaromer, wherein the mixing chamber was irradiated with ultrasound. This was not possible

^ -2-21

In all cases, a sufficient mixing quality can be achieved.

Accordingly, it has been proposed according to OS 2 131 540 (FRG) to fill the components in a mold and to irradiate them with vibrations up to the ultrasonic range.

Similarly, d. H. by arranging an ultrasonic beacon at the bottom of a vessel filled with liquid, the mixing takes place according to PS 429 257 (CH).

However, both solutions are not economical and do not allow universality in their application.

According to OS 2 649 973 (FRG), it has been proposed to introduce component jets into a mixing chamber free from agitating and, following the pre-mixing occurring there, to conduct the flow of the component mixture under pressure at high speed over a tongue which oscillates in the ultrasound range and thus causes further mixing ,

The disadvantage here is that the tongue is a mechanical element that must be vibrated by a constant stream of components that depend on the speed of this stream and the structural design. This results in a poor mixing at the time of the start-up and shutdown phase, resulting in quality defects in the product produced. When using rapidly reacting components, a cleaning of the mixing device with cleaning agents is required, which are expensive in many cases, endanger health and harm the environment. It falls to an unusable residual mixture.

According to OS 2 730 568 (FRG), it has been proposed to generate the ultrasonic vibrations for mixing liquid components by converting local densities of a fluid medium into mechanical vibrations.

3- 214

The iJachteil consists in the necessary rotor-stator system, which cooperates with an existing elastic material of the oscillator and due to its complicated design does not allow cleaning of the mixing device without detergent.

Even when mixing according to OS 2 155 176 (FRG), in which the medium to be mixed is irradiated by means of an ultrasonic probe in a spiral channel transversely to the flow direction, a cleaning is possible only with detergent, with a further IJachteil in the relatively low throughput consists.

Object of the invention

The aim of the invention is the further development of the principle of the jet mixer with counter-current arrangement.

Explanation of the essence of the invention

The object of the invention is to component flows according to the principle of the jet mixer with countercurrent arrangement even at low pressures, eg. B. below 2 MPa to mix with sufficient mixing quality and thereby at least to obtain the advantages in terms of easy cleaning of the mixing device.

According to the invention the object is achieved in that when mixing liquid component streams according to the principle of the jet mixer with counter-current arrangement at least one Eoinponentenstrom immediately before or «is irradiated during its entry into the mixing chamber with ultrasound. The ultrasonic vibrations are initiated in such a way and in the strength that they still affect the impact point of the component currents. In addition, the component mixture formed in the mixing chamber can be irradiated in the flow direction with ultrasound. ,

The device for mixing liquid components,. In particular, quickly reacting with each other components, has a mixing chamber housing, in which a mixing chamber is located, which receives a length of Mischrauines complementary to the mixing chamber bore, formed in the longitudinal direction movable ejection piston. The remaining part of the ejection piston is designed as an exponential horn and receives at least one Ultras challschv.'inger frontally, which is firmly locked by means of a pressure plate. The mixing chamber housing has in the mixing chamber opening inlet openings for the components which are diametrically opposed or arranged at a certain angle to the longitudinal axis of the mixing chamber.

Each inlet opening is followed by an inlet chamber. At the opposite side of the mixing chamber at least one inlet chamber is an ultrasonic transducer, in particular a focusing ultrasonic transducer whose focus is within the mixing chamber, preferably at the point of impact of the component flows. Each inlet chamber, which is advantageously funnel-shaped, has a supply line for a component. Each component arrives from a storage system, not shown, with a pressure lying in the low pressure range (approximately up to 2 MPa) via a feed line into the inlet chamber and from here via the inlet openings into the mixing chamber. The particle-jet jet entering the mixing chamber meets at least one further component jet of another component in the mixing chamber, the jet effect causing a mixing.

The arranged at least one 'inlet chamber, working with arbitrary frequency, focusing ultrasonic vibrator simultaneously radiates its energy so that the highest energy density occurs at the location of the meeting of the individual used as Koppiungsraedien for the oscillations component flows in the mixing chamber, whereby the homogeneity of the mixture micro-

- 5 - 2

skopical area is improved

 To further improve the homogeneity, the

resulting mixture in Misehraura at the same time in addition to ultrasonic vibrations that emanate from the coupled with at least one ultrasonic oscillator discharge piston, are superimposed in the discharge. A special advantage here is that the

The residual mixture film forming between the ejection piston and the mixing chamber wall does not firmly adhere to the piston skirt when the ejection piston oscillates, and the retraction force for the ejection piston is thereby minimized.

embodiment

In the drawing, the invention is shown in principle. It shows a mixing device in working position with arrangement of the ultrasonic vibrator for each component at opposite inlet openings.

From a storage system, not shown, each liquid component stream A passes; B with a pressure, e.g. to about 2 IiPa, via a supply line 5 in an inlet chamber 4, this fills and enters through an inlet opening β in an LTischraum 2 when the mixing chamber 2 in the longitudinal direction C-D movably arranged ejection piston 8 in the upper position, d. H. in working position, was moved and the cross sections of the inlet opening 6 has released. At the periphery of the mixing chamber 2 can for each component A; B also several inlet openings 6 may be arranged with associated inlet chambers

 In each inlet comb 4 vibrations of the ultrasound region are imparted to the component by a focusing ultrasound transducer 7 in such a way that the highest energy density within the mixing chamber 2 prevails.

16O is.

According to the drawing, the inlet openings 6 are arranged opposite each other in the I.iirriein housing 1. At this

Arrangement meet the component currents on the axes X ₁ ; xp; ···; χ in the mixing chamber 2 under a certain

_; Angle c ^ to the longitudinal axis ζ of the mixing line 2 on each other and are mixed by the beam effect of the component streams, at the same time by the ultrasound, the mixing intensity, especially in the microscopic range, significantly increased and thus takes place an intimate mixing.

The focal point of each ultrasonic vibrator 7 is arranged so that within the mixing chamber 2, preferably at the intersection of the axes x .; X ₂ ; ·· "; x _n »the highest energy density occurs.

When the components enter the mixing chamber 2, the resulting mixture at the same time in addition in the flow direction, d, h. in the discharge direction of the mixing chamber 2, irradiated with ultrasound. The introduction of the ultrasound takes place via the ejection piston B, to which outside of the mixing chamber 2 an ultrasonic oscillator 9 is fastened by means of a pressure plate 10 which causes the ejection piston 8 to oscillate in the longitudinal direction C-D.

The mixture production continues until the length of the mixing chamber 2 complementary to the mixing chamber bore 3 formed ejection piston 8 in Lease C, d. H. in the discharge, is moved and simultaneously discharges the mixture located in the mixing chamber 2.

During the movement of the ejection piston 8 in the discharge direction of the ultrasonic vibrator 9 is constantly in operation. The ultrasonic vibrator 7 are only in working position of the ejection piston 8 in function. Upon movement of the ejection piston 8 in the discharge direction they become al) the time of Überdeckung.der cross-sections of the inlet openings 6 functionless to cavitation damage em ejection piston 8 to avoid. It is advantageous that the ultrasonic vibrator 7 does not come into contact with the component mixture, but only with one component in each case and is thereby ensured that '

1 4 6 95

Mixing quickly reacting components no pollution occurs, which makes "a cleaning ζ. Β. Required with detergent.

The advantages of the invention are that although the components are conducted in countercurrent to each other, but the high working pressures required at the jet mixer are not required and that despite low working pressures in the range z. B "to about 2 HPa no mixing tools in the mixing chamber are necessary to bring about an intimate mixing of the components. In addition, eliminates the possible use of a mixing device with ejection piston, the use of cleaning agents after discharging the component mixture.

Overall, the invention ensures a sufficient mixing of the components with significantly lower mechanical complexity.

Claims (5)

- B- 1. A method for mixing liquid component streams, in which the components flow into a mixing chamber and mix there, wherein optionally time or continuously ultrasound acts on the mixture, characterized in that at least "a component stream immediately before or during its occurrence is irradiated in the mixing chamber with ultrasound. 1 4 6 9 5 invention claim 2. The method according to item 1, characterized in that the component mixture formed in the mixing chamber is irradiated in the flow direction with ultrasound. Device for mixing liquid component streams with a mixing space into which the components flow under pressure through opposite inlet openings, and an ejection piston, characterized in that. that at least in front of an inlet opening (6) a Uitra- 'echallenger (7) arranged and optionally on the ejection piston (8) at least one further ultrasonic oscillator (9) is fixed. 4. Apparatus according to item 3, characterized in that the ultrasonic oscillator (7) is a focusing oscillator whose focal point is in the region of the mixing chamber (2), preferably at the point of impact of the component flows, 5. Device according to point 3> characterized in that the inlet runner (4) is preferably funnel-shaped and receives the ultrasonic transducer (7). £>. Device according to point 3 », characterized in that the ejection piston (ß) formed outside of the mixing chamber (2) as an exponential horn, the Ultraschallschwinger- (9) attached to this end face and covered with a pressure plate (10). For this iSaiio drawings