FI71706B - FLUIDISERINGSANORDNING - Google Patents

Description

71 706

Fluidizer. - Fluidization system.

The invention relates to a device for fluidizable materials, e.g. cement, next to the container discharge opening.

A container for powdered and fluidizable materials is most often provided with some type of fluid sounding device adjacent the discharge opening to enhance the emptying of the container. Such a fluidizing device may be in the form of a perforated plate placed at a distance around the outlet or in a ring around the outlet, usually to supply air to the tank to fluidize the material around the discharge opening. When the plate is annular, it can be replaced by a deformable rubber ring which, with its edge towards the drain hole, forms a gap towards the inside of the wall inside the drain hole to allow air to enter. The rubber ring creates a skirt-like collar, so that the size of the gap forming the air inlet varies considerably due to various factors such as the pressure of the supply air, the material load, which can also close the gap completely, requiring considerable air pressure to open the gap and thus initiate fluidization. In addition to these drawbacks, known devices require a lot of maintenance in order to function satisfactorily. Further demands are placed on the compressors and the corresponding components of the air jet itself.

It is an object of the present invention to eliminate or at least reduce the disadvantages of the known fluidization devices.

This object is solved according to the present invention by arranging a space delimited by rigid walls a certain distance from the discharge opening and the space communicating with the interior of the container through a gap in the space facing the emptying opening. The space extends around the discharge opening and the liquid supply part is arranged at at least one point and is separated from the space and protected from inside the container by a rigid cover extending towards the discharge opening, which cover forms a second liquid supply gap extending towards the discharge opening.

The discharge opening is located in a downcomer fixed to the wall of the container by means of a ring at such a height that the envelope surface of the downward cone protrudes outwards from inside the container, the rigid annular cover forming an extension on the inner side of the container downwards. The rigid, annular cover extends substantially in line with the inside of the container and then toward the inside of the down cone to form a gap.

The device according to the present invention makes it possible to empty a container containing fluidizable articles or material particularly efficiently. The gap formed is essentially always constant and approximately independent of the material in the tank, the degree of filling of the tank and the pressure of the fluidizing agent to be fed. In addition, the possibility of clogging is rather low.

Figure 1 shows a top view of a landing cone together with an embodiment of the device according to the invention.

Figure 2 shows the parts of Figure 1 seen from the side, with certain parts shown in cross-sections for a more detailed explanation of the construction.

Figure 3 shows on a larger scale a cross-section of the slit part.

An embodiment of the present invention will be described in more detail below with reference to the accompanying drawings.

Figures 1 and 2 show in more detail the landing cone mounted on the tank 1 shown in dotted lines, of which only the lowest part is shown.

3 71 706 because the container can in principle be of any shape. The container 1 can be either fixed or movable. In many cases, the tank is called a pressure vessel. The container 1 can furthermore be intended for many different types of materials, and in particular for powdery or particulate materials, which are also fluidizable.

The container 1 is provided at its lower part with a lowering cone 2, which in the appended embodiment has an inverted truncated cone and can be formed as shown by a plate corresponding to the jacket surface of the truncated cone. Breaking off the top of the cone provides a drain hole 3 provided on the outside with a connecting flange 4 for a flap device, a pipe joint or the like.

The landing cone 2 is fixed to the container 1 via a ring 5, which ring may be welded inside the landing cone 2 and then welded to the outside of the tank 1 along its lower edge. From the remaining part of the inwardly directed inner side of the ring 5 comes a cover 6 made of a rigid material, preferably of suitably thick thickness. There is only a small gap between the inner side of the lowering cone 2 and the edge of the lowered part 7, which is shown in more detail in Fig. 3 and which in the accompanying embodiment can be 1 mm.

It can be seen in more detail from Figure 2 that the cover 6 extends as a ring around the edge of the landing cone and thus forms an annular space 9 with an air gap 8 extending around the entire inner part of the bent-down part 7. The liquid source (not shown) usually consists of a compressed air compressor or the like.

71 706 4

On the opposite side of the connecting pipe 10 to the downcomer 2 there is a second connecting pipe 11, which is also intended to be connected to a suitable liquid source or the same source as the connecting pipe 10. The connecting pipe 11 leads inside the downcomer 2 towards the discharge opening 3. It is clear from Figure 2 that the cover 12 forms a gap 13 expanding towards the discharge opening 3. The arrangement of the cover 12 and the air gap 13 provide additional efficiency for emptying the container 1.

In addition to particularly efficient fluidization, the device according to the present invention is suitable for use in connection with heavy materials and high-wear materials.

Claims (3)

A device for fluidizable materials, e.g. cement (1) in the vicinity of the discharge opening (3), the device being provided with a space (9) delimited by rigid walls at a distance from the discharge opening (3), the space (9) communicating with the tank (1) with the inner part through a slot (9) in the part of the space (8) facing the drain opening (3), which space (9) can be connected to a source of fluidizing agent for supplying fluidizing agent to the container (1) through the slot (8), characterized in that the space (9) extends around the discharge opening (3) and that the fluidizing agent supply part is arranged at at least one point and is separated from the space (9) and protected from inside the container (1) by a rigid cover (12) extending towards the discharge opening (3). forms a second fluidizing agent supply gap (13) extending towards the discharge opening (3). Device according to Claim 1, characterized in that the discharge opening (3) is located in a lowering cone (2) which is fastened to the wall of the container (1) by means of a ring (5) of such height that the jacket surface of the lowering cone (2) with respect to the inner surface, the rigid, annular cover (6) forming an extension to the inner side of the container (1) down to the lowering cone (2) and at the same time said space (9). Device according to claim 2, characterized in that the rigid, annular cover (6) extends substantially in line with the inside of the container (1) and the lower part of the cover is bent towards the inside of the lowering cone (2) to form a gap (8).