DE2631622A1 - Continuous, simultaneous feeding of powder and liq. - into inlets to processing machines, e.g. mills, extruders, etc. - Google Patents

Abstract

In a process for continuously and simultaneously feeding powdered solids and liqs. into a processing machine, the liq. is formed into a hollow cylindrical jacket, into whose centre the solid material is introduced. The liq. is introduced through a ring manifold having a continuous, vertically downwards orientated slot, or a series of small, outwardly inclined holes, the jets from which combine to form a continuous curtain of liq. on the inner surface of the machine inlet. The powder flows downwardly from an inlet pipe enclosed by the liq. ring manifold. Process is used for feeding e.g. mixers, paddle mills, screw extruders, etc. Agglomeration and encrustation in the machine inlet are prevented.

Description

'tProcess and device for simultaneous and continuous Feeding powdery solids and liquids into treatment machines " The invention relates to a method for simultaneous and continuous feeding of powdery solids and liquids in treatment machines and a Apparatus for carrying out this process.

In many cases, for technological reasons, it is necessary to use solids and liquids simultaneously and continuously in treatment machines such as mixers, Feed screws for agitator mills, or feed screws for screw extruders, or to enter mills.

It is known that the solids and the liquid at the same time into a machine surrounding the feed opening of the treatment, directed upwards Enter feed nozzle. The problem arises here to a considerable extent that the solids agglomerate with the liquid and clog the feed opening, whereby either the dosing accuracy or even the solid liquid supply is impaired to the treatment machine is completely interrupted.

To fix this problem, it has already become known in to provide circumferential scrapers around the feed connection, but they themselves again regularly must be freed from solid-liquid caking.

Furthermore, it is already known, feed nozzle through which only powdery or free-flowing solids are fed with a vibration drive to be provided in order to avoid so-called bridging of solids. With a but such a vibration drive can not be prevented that at the same time Supply of solids and liquids caking can occur.

The invention is based on the object of a method of the above to create the specified type, by caking or clogging with certainty be avoided. Furthermore, a device for performing this method can be specified.

This task is described in the case of a method as described at the beginning Type solved in that the liquid is formed into a hose-like jacket, in the center of which the solids are entered. By the method according to the invention blockages or caking without mechanical aids are avoided. Of the hose-like liquid jacket surrounds the one introduced into the treatment machine Solids flow and changes that solids due to its flow direction penetrate this coat at all transversely to its direction of flow.

The hose-like liquid jacket is advantageously through Gravitational forces formed inherently stable, including the liquid from top to bottom strÖmt0 Furthermore, the hose is held together by cohesive forces.

Advantageously, the hose-like liquid jacket continues to be formed on the wall supporting surrounding elements A device for implementation of the method according to the invention with one on the housing of a treatment machine attached feed opening for solids and liquids is characterized by that a ring nozzle for the supply of liquid is arranged above the feed opening is, in the center of which a solids feeder is directed, if at this Device surrounding the feed opening and extending upwardly from it Feed nozzle is provided, then it is particularly advantageous if the ring nozzle is arranged on the inner wall of the feed connector, with the purpose being the The solids feed device is arranged in the center of the ring nozzle then the liquid down as a tube either on the inner wall of the feed nozzle or flows in front of the inner wall in the same way as a hose-like curtain below, while the solids inside this hose enter the treatment machine without touching the inner wall of the feed nozzle In a simple design, the ring nozzle has a large number of outlet openings provided, annularly extending pipeline is formed, with the outlet openings as a rule are directed towards the inner wall of the feed nozzle. Even if this the liquid in the form of individual, relatively close together jets reaches the inner wall of the feed connector, it spreads there immediately and runs then downwards in the form of a coherent, i.e. hose-like film.

If, on the other hand, the liquid is equally like a hose-like If the curtain is to flow down in front of the inner wall of the feed nozzle, then it is Advantage3 if the ring nozzle is provided with a slot and is ring-shaped running pipeline is formed, which ensures that not only individual jets of liquid go down, but a closed tube-like one Liquid curtain. The diameter and spacing of the usually called holes formed outlet openings or the width of the slot depends on a large number of influencing variables such as viscosity, surface tension, adhesion force to the material of the Zuftilirstutzens, so that there are generally binding rules about this constructive Do not specify sizes; for the expert, however, it is easy in everyone Use case to determine these sizes optimally.

In another solution, there is a conical ring nozzle above the feed opening arranged and directed into the liquid cone feed device for solids intended.

Further advantages and features of the invention emerge from the description of exemplary embodiments with reference to the drawing. In the drawing, FIG. 1 shows a Feed screw of an agitator mill with one of the feeder upstream according to the invention, FIG. 2 shows the device according to FIG. 1 on an enlarged scale Representation and FIG. 3 shows another embodiment of a device according to the invention.

An agitator mill 1 consists of a cylindrical grinding container 2, in which an agitator shaft 3 is arranged concentrically, with agitator tools 4 is provided.

The agitator shaft mounted overhung in bearings 5 above the grinding container 1 3 can be driven at high speed by a drive (not shown). The grinding container 2 is of a cooling jacket 6 with a lower coolant inlet 7 and an upper one Sühlmittelauslaß 8 surrounded. At the upper end of the grinding container there is a separating device 9, for example a sieve, is provided through which the ground material after fine grinding and dispersing while retaining the auxiliary grinding bodies in the grinding container 2 lo can exit through a Mahlgutauslaß 11.

In the area of its lower end opens into the grinding container 2 Here as a treatment machine to be seen feed screw 12, the housing 13 with a double jacket 14 is surrounded, which has an inlet opening 15 and an outlet opening 16 for supplying or removing a liquid medium for cooling or heating. A worm shaft 17 with worm windings 18 is arranged in the housing, whose storage and drive are no longer shown. The housing 13 has a Feed opening 19, which has a metering device 2o for free-flowing solids and a liquid metering device 21 with a liquid supply line 22 is upstream. Such an agitator mill 1 with an upstream feed screw 12 is from DT-OS 24 32 86o (US-PS 3 957 210, GB-Ser. No. 34 618/74 and Japan Sho-5o-12263) known.

The feed opening 19 is extended by an upward Surrounding feed nozzle 23, on the inner wall of which a ring line 24 is attached, which is connected to the liquid supply line 22. The ring line has either a downward, circumferential, i.e. annular, slot 25 see Fig. 2 'right) or a large number of at a relatively small distance from one another arranged, obliquely downward on the inner wall of the feed connector 23 directed Outlet openings 26 (see Fig. 2 left), whereby an annular nozzle is formed in each case will. In the former case, the liquid emerges from the slot 25 vertically downwards and at a distance from the inner wall of the feed nozzle 23 and falls in the form of a hose-like jacket 27 free from the inner wall of the feed connector 23 downwards into the feed opening 19. In the other case, in which the liquid from the outlet openings 26 exits, it also runs like a hose-like jacket 28 on the inner wall of the feed connector 23 down into the feed opening 19.

Inside the ring formed by the ring line »4 is a tubular or triohter-like solid feeder 29 is provided, into which the Free-flowing solids are entered from the Dosiereinriohtung 20 and as closed solids stream 30 get into the feed opening 19 without passing through the hose-like liquid jacket 27 or 28 through to the inner wall of the nozzle 23 to kown.

In the embodiment according to FIG. 3, the treatment machine is a conventional one Mixer 31 is provided, a mixer shaft concentrically in its cylindrical housing 32 33 is arranged, the storage and drive are not shown. On the mixer shaft 33 customary mixing tools 34 are attached. At the end of the housing 32 is a feed opening 35 is provided, which is open at the top. This feed opening 35 is of a self frustoconical upwardly tapering feed nozzle 36 surrounded at its upper narrowest cross-section 37 a funnel-shaped feed device 38 for free-flowing solids are connected.

In the narrowest cross section 37 of the feed connector 36 there is a conical ring nozzle 39, which is connected to a liquid supply line 40. From the Conical ring nozzle 39 enters the liquid in the form of a conical, hose-like Liquid jacket 41 out and flow; in this conical shape into the feed opening 35. The free-flowing solids occur in the area of the narrowest cross section 37 ring-shaped through the liquid jacket 41 and trickle as a largely closed Solids flow 42 into the feed opening 55 without the inner wall of the feed connector 36 touch.

Since from the inside of the conical liquid jacket 14 a suction effect runs out, no liquid can get into the funnel-shaped feed device 38, so that no clumping or bridging can occur there.

As far as solids from the conical liquid jacket 41 are thrown onto the inner wall of the feed connector 36, they are there from the liquid rinsed off again. This effect is enhanced when the tapered The liquid jacket is directed directly onto the inner wall of the feed port 36, which is indicated in Fig. 3 by the dashed line 43,

Claims (8)

Claims 1.) Method for simultaneous and continuous feeding of powdery solids and liquids in treatment machines, thereby characterized in that the liquid is formed into a hose-like jacket, in the center of which the solids are entered. 2.) The method according to claim i, characterized in that the hose-like Liquid jacket is formed inherently stable by gravitational forces. ).) Method according to claim 1 or 2, characterized in that the hose-like liquid jacket formed on the wall supporting surrounding elements will. 4.) Device for performing the method according to one of the claims 1 to 3, with a feed opening attached to the housing of a treatment machine for solids and liquids, characterized in that above the feed opening (19) an annular nozzle for the liquid supply is arranged, in the center of which a Solids feed device (29) is directed. 5.) Device according to claim 4, with a surrounding the feed opening and from this upwardly extending feed nozzle, characterized in that that the ring nozzle is arranged on the inner wall of the feed connector (23). 6.) Device according to claim 4, characterized in that the solids feed device (29) is arranged in the center of the ring nozzle. 7.) Device according to claim 4, characterized in that the annular nozzle through an annular shape provided with a multiplicity of outlet openings fl (26) extending pipe (24) is formed. 8.) Device according to claim 7, characterized # that the outlet openings (26) are directed towards the inner wall of the feed connector (23). 9o) Device according to claim 4, characterized in that the annular nozzle through an annular pipeline provided with a slot (25) (245- is formed. lo.) Device according to claim 9, characterized in that the Slot (25) is directed vertically downwards. 11 ~) Device for carrying out the method according to one of the claims 1 to 3 with a feed opening attached to the housing of a treatment machine for solids and liquids, characterized in that above the feed opening (35) a conical ring nozzle (39) is arranged, and that one in the liquid cone (41) directional feed device (38) for solids is provided,