DE542230C - Duese for conveying and compacting mortar, sand, etc. like - Google Patents

Description

Nozzle for conveying and compacting mortar, sand and the like. The main patent 471 399 relates to a method for conveying and compacting sand, mortar and the like by means of a compressed air centrifugal device, the jet consisting of conveyed material and compressed air shortly before its Exit is brought to a wide, substantially rectangular shape.

The purpose of the process is to identify the goods and the funds for the exit to be separated from each other as completely as possible and the conveyed goods on this way to deliver as air-free as possible to its destination. In the main patent some types of nozzles are also indicated for carrying out this process the nozzle mouths are formed with a rectangular cross-section.

Experiments have shown that it is not necessary to ari these to bind essentially rectangular orifice cross-section, but that the purpose can also be achieved completely or more completely if the nozzle orifices form other cross-sections. The nozzles according to the invention are characterized by that the initial cross-section of the nozzle gradually merges into cross-sections, the walls of which have an enlarged radius of curvature, or that the nozzle initial cross-section Walls are upstream, which gradually widen the beam cross-section.

For the purposes of the invention, for example, the circular initial cross-section the nozzle while maintaining its circular shape, but increasing the curvature gradually expand the nozzle axis towards the mouth. Instead, you can the circular initial cross-section of the nozzle gradually becomes wider and let the elliptical cross-section become flatter without the nozzle axis to curve. Furthermore, the nozzle can be fitted with two concave and curved with an enlarged radius, opposing guide surfaces or two opposing rollers with straight or with a larger radius concavely curved lateral surfaces as guide surfaces upstream.

The nozzles according to the invention give the mixture jet a gradually widening shape, but offer the advantage over previous nozzles that the transition from the round to the rectangular cross-section is omitted, the beam better concentrated towards the center of the nozzle and also approximately or completely axial exit of the Fördergutstrahles is achieved, whereby the handling of the device is considerable is facilitated.

Compared to the rectangular cross-section provided in the main patent it has been shown here that the segregation of the conveyed material and funds at a nozzle with a curved nozzle axis is reliably achieved even if one maintains the circular nozzle cross-section, but lets it grow so that the The radius of curvature of the nozzle wall towards the mouth increases and the curvature of the The nozzle axis increases towards the mouth.

It has also been found that earlier nozzle shapes Any deflection of the entire beam can be made completely unnecessary, if, for the gradual widening of the beam cross-section, the gradual Conversion of the initial circular cross-section through an enlarged radius of curvature or brought about by the pre-storage of walls.

Nozzles have already been proposed for mixing the conveying material and the conveyed material, in those of a certain cross-section on the walls an enlarged radius of curvature own. Since these nozzles are not used for segregation, but for the opposite, namely are intended for mixing, the inside of the nozzle is made up of two different parts together. First of all, the radius of curvature of the Wall away, d. H. the nozzle cross-section gradually narrows. Only then does it grow the radius of curvature of the wall, around the bulging out of the narrowest point Thoroughly re-mix the mixture flow by means of vortex movements. The mixed jet emerges essentially in a helical manner, while in the case of the counter-star of the invention the Material jet in or near the center on a slightly curved or straight line Center line emerges and the compressed air can flow off on both sides.

Some embodiments of the subject invention are on the Drawing shown.

Fig. I shows a nozzle with a curved nozzle axis, Fig. 2 to 5 show several embodiments with a straight nozzle axis.

The nozzle according to Fig. I starts at i2 with a circular cross-section, which gradually widens towards the mouth 15 by the radius of curvature the wall increases from 12 to 13. At the same time, the nozzle axis also curves approximately from where the cross-sectional enlargement begins, and indeed gradually in an enlarged manner Dimensions. The curvature of the axis increases and is strongest at the mouth 15. The mixture jet still fills the nozzle at around 12. But then it pushes itself Conveyed more and more against the upper wall part 12 and 13, and at the mouth 15 occurs the conveyed material in a tightly packed jet 14 with moderate Deflection from the initial straight nozzle axis.

In the case of the nozzle i according to Fig. A, the initially circular cross-section is used into a gradually flatter and wider elliptical cross-section. Of the The radius of curvature of the wall increases (see Fig. 3, which shows a section after Line a-b of Fig. 2). The mixed jet is in one direction compressed and can expand perpendicular to it. As a result, accumulates in the middle, the conveyed goods, and the conveying means can escape to the side.

In the embodiment according to Fig. 4, the cross section of the nozzle 2 can be arbitrary, i.e. also have a circular shape. The mouth is at 4 two baffles 5 and 6 upstream, which face each other concavely in longitudinal section and according to FIG the cross-section shown under Fig. 4 is enlarged compared to the nozzle cross-section Have a radius of curvature (here infinite).

The nozzle 7 according to FIG. 5 can also have any cross-section. By means of console 8, 9 or the like, the nozzle 7 has two rollers io, ii fixed or adjustable upstream. They form guide surfaces in the plane in which the jet is compressed should be, are concavely curved. They are symmetrical to the plane in which the beam is to be spread out. The outer surfaces of the rollers can be straight or concavely curved with a radius that is larger than the nozzle cross-section be.

Claims (3)

PATENT CLAIMS: i. Nozzle for conveying and compacting mortar, sand and the like by means of a compressed air centrifugal device according to patent 471 399, characterized in that the nozzle initial cross-section gradually merges into cross-sections, the walls of which have an enlarged radius of curvature, or that walls are in front of it, which gradually increase the jet cross-section widen. 2. nozzle after Claim a, characterized in that the nozzle initial cross-section is maintained its circular shape, but with an increase in the curvature of the nozzle axis towards the mouth gradually expanded. 3. Nozzle according to claim i, characterized in that the Initial nozzle cross-section without curvature of the nozzle axis gradually becomes wider and wider and a flatter elliptical cross-section. Nozzle according to claim i, characterized in that the nozzle has two concave and enlarged radius curved, opposing guide surfaces are upstream. 5. Nozzle after Claim i, characterized in that the nozzle has two opposing, Fixed or adjustable castors with straight or enlarged radius concave curved lateral surfaces are placed in front of them as guide surfaces.