DE224573C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention relates to a jet blower for achieving a vacuum.

According to the present invention, the water is now first under pressure in a or split several pressure jets, which. · Butt against each other in the air nozzle and are atomized, the water particles being mixed with the air to be conveyed will. The mixture consisting of air and water then flows through a number Compression and deflection chambers through, each of which narrows first and then merges into an extension of the next chamber. . '.

The latter device is made to prevent the air from flowing back around the circumference of the exiting water jet.
4 | It is essential that the. Is if water first completely atomized or self finely divided, after which it must be mixed only with the herfr auszubefordernden air or with the soristi- ψ gen gases.

It is also of great importance that the mixture of water and air in motion is repeatedly compressed and deflected at the same time, so that the individual particles collide with one another, and that they are mixed with the air with each new compression. In this way a strong air dilution is achieved. With the new apparatus, the vacuum is achieved in individual stages in that the degree of air dilution increases with each compression; For example, it has been found that if one works with an amount of water which is about ¹ Z _{100 of} the volume of the sucked air, and takes refuge in six stages of compression, a vacuum results which easily has up to 75 mm of mercury.

Practical tests have shown that ·. that it is advisable to have a discharge tube to use, which is provided with a number of constrictions, which are in short intervals repeat. "

It has also been found that, for the best results, the water jets must push against each other exactly, so that they are finely atomized as well as further in of the air or gas that is in the outflow tube be, the bore of this outflow tube more or less completely by which: the relevant beam is filled in.

To achieve this result, two water outflow nozzles are preferably used arranged opposite one another, so that 'the water emerging from these nozzles on meets the surface of the truncated cone intended for deflection and in this way the Rays collide with great accuracy.

On the drawing is' an embodiment of the apparatus of the present invention which is suitable for use with water under high pressure.

Fig. Ι is a vertical section of the device, .

T "

Fig. 2 is a plan view of the disc provided with the water nozzles.

Fig. 3 is a cross-section of the device, taken along line XX of Fig. I.
The water or any other liquid, which comes from a suitable power source, is introduced into a tube α which can be screwed into a flange b which in turn is united with the flange c of a housing d ίο by bolt connection or any other suitable fastening means.

Furthermore, the flange c is equipped at its lower end with a flange g , which in turn is connected to the flange h of a suction chamber i by bolts or other means.

In the housing d , a filter / made of wire gauze is preferably arranged, which is intended to prevent solid particles from being carried away with the water, which could clog the nozzles.

In addition, a disk / is arranged between the flange g and h , which is provided with suitable seals and which has openings m for the passage of the water jets, /.

As can be seen from FIG. 1, the openings 30I are tapered towards m and also parallel to one another: | other angeoTxtaet.

In the flange h of the suction chamber i there is accommodated a short, hollow truncated cone η which is intended to deflect or continue the jet in a prescribed direction. The upper extended part of the truncated cone has a slightly larger diameter than the distance between the two nozzle openings m below it, while the lower, narrower part of the truncated cone has a diameter that is slightly smaller than the relevant distance between the two nozzle openings, so that the water when it emerges from the two openings m , it hits the inner wall of the truncated cone at two opposite points; as a result, the two jets are thrown against each other so that they meet each other at a greater or lesser distance from the nozzle openings, in that they follow the incline of the conical body.

The inclination of the inner wall of the truncated cone is always chosen so that the Rays hit at the desired point, as shown, for example, in Fig. 1 with dash-dotted lines Lines is indicated. The rays are due to the resulting Impact effects are atomized and at the same time are more or less all over the place Length of the bore of the pipe in question.

The suction chamber I is also provided with a branch 4 ″ through which the air, the gas or the steam are sucked out under the action of the mentioned jets.

In the lower part of the suction chamber there is a jacket tube r with a mixing tube 0 , which is cylindrical over part of its length and has a constriction at q, creating a first conical chamber, after which the tube expands again to its original diameter is to narrow again thereupon and form a second frustoconical chamber, and so on. The number of constrictions of tube 0 forming the frustoconical chambers and the length of this tube can be increased or decreased as desired to accommodate the pressure and amount of water passing through the apparatus and the degree of vacuum desired. In the case where it is intended to achieve a large evacuation, for example when it comes to evacuating air from steam condensers, inclined flow openings can be used to allow a larger amount of water to escape at low pressure, instead of, as in the embodiment described above to use circular openings.

The jets of water emerging from the nozzle openings m hit the frustoconical body η approximately at the point indicated by 1 and meet in the pipe 0 approximately at the point 2, so that finally the water, as can be seen at 3, is completely atomized and thereby spreads along the bore of the pipe.

Each constricted conical chamber q directs the moving homogeneous mixture of water and air towards the center of the pipe and not only causes this mixture, when it passes through the constriction, to be compressed and at the same time the bore of the pipe completely fills, and prevents the air from flowing back at the circumference of the jet, but rather that all water particles that get to the inner wall of the tube towards the center. are thrown back, whereby the surface friction between the water and the inner part of the pipe is reduced.

Claims (1)

Godfather saying: Jet blower for achieving a vacuum, characterized in that, under Use of multiple water jets, the latter are forced through a conical nozzle (η) to push each other exactly, so that they are finely_Y_ej: divides ^ spread and intimately mixed with the air (or the gas), and that the mixing tube (o) with a number of lined up, frustoconical chambers, the constrictions of which are each connected to the suddenly widened part of the next chamber - so that the mixture of water and air (or gas) flowing through these chambers is repeatedly compressed, mixed and deflected. For this purpose ι sheet of drawings.