DE626194C - Water jet air pump - Google Patents

Description

Water jet air pump The invention relates to a water jet air pump with a distributor cone in a throttling cross-section of the liquid pressure line and aims to improve the suction effect of the jet pump considerably is increased. The invention consists in that the starting point in the nozzle cross-section Distributor cone widens outward in the direction of the outflowing hydraulic fluid and then behind a ring cross-section that is connected to the air intake line into an initially expanding and then narrowing again opens, which merges into an elongated discharge cone. The through this design generated suction is increased considerably by the fact that the distributor cone is hollowed out inside to a cone, which with its largest cross-section into the interior the atomizer chamber opens and within the distribution cone into the atomizer chamber thrown liquid evacuate one associated with its cavity Forms space through which a considerable pressure gradient is created in the suction line. It is necessary for the distributor cone to be sensitively adjustable with respect to the nozzle is so that the greatest possible suction is achieved at any water pressure can be. For this purpose, the hydraulic fluid nozzle is located within its housing held by means of an intermediate piece and a sealing nozzle. The distributor cone on the other hand, it is adjustable by means of a rod from a rib inside the Nozzle worn. In a further embodiment, the distributor cone is on its surface provided with one or more grooves and also ends in one opposite conical bevel.

In a further development, the effective parts are the water jet air pump designed as a body of revolution and rotate. The arrangement is made here, that the rotating jet pump housing on the one hand by means of a central tube with the liquid of a liquid container and on the other hand by means of a central line is connected to the room to be evacuated. Within of the pipe immersed in the liquid in the container can expediently be a screw conveyor be arranged. Since the rotating water jet pump is outside the liquid, the arrangement is made that by means of a bead-shaped peripheral wall of the a housing wall on the circumference of the rotating jet pump housing a liquid seal is formed, wherein the inwardly curved container wall edge of the container the leakage of the closure serving liquid prevents the pump and iri returns the container.

To simplify the construction, according to the invention, the connection to the space to be evacuated is created by the hollow shaft with the drive pulley, and this connecting line opens into the interior of the upper housing plate, which by means of hollow stud is in communication with the interior of the lower housing plate.

Another structural design is that the individual the inner nozzle, the distribution cone, the spray chamber and the exhaust cone forming plate washers are connected to each other by stud bolts and spacer tubes and connected to the upper plate wall carried by the hollow drive shaft and that this hollow drive shaft is held suspended in thrust bearings.

Exemplary embodiments are explained in the drawing.

Fig. I shows the water jet air pump according to the invention in one Cross-section. Fig. 2 shows in enlarged cross section and in view of the distributor cone.

Fig. 3 shows a modified embodiment in cross section.

FIG. 4 is a plan view of the rotating body of FIG. 3.

Fig.5 explains a further modified embodiment in which the distributor cone has ceased to exist.

In the embodiment of Fig. I is on a housing 4, which is on both ends 5 and 6 is provided with an internal thread, a lower branch 8 with the line 7 is provided for connection to an apparatus to be evacuated.

The housing .4 is connected at one end 6 to a link g. The connection position of the latter can be regulated by means of the mother io.

The other end of the housing 4 is connected to a pressure line 12, for example a pressure water line, by means of a sealing connector ii. Inside the housing 4 there is an inwardly protruding collar 16 against which a pressure fluid nozzle 15 with a flange 14 rests: The position of this nozzle 15 is secured by means of an intermediate ring 13 by tightening the connector 1i. The nozzle 15 carries the stem 18 of a distributor cone i g within its flange 14 by means of a rib 17 and between two nuts. The distributor cone ig extends into the annular cross section 2o of an insert piece 9, and its position in relation to this opening can be regulated by means of the nuts shown. The annular cross-section 20 widens to form an atomizer chamber 21, which merges into a double conical constriction 22 and ends in an elongated discharge cone 23 with the largest opening 24. The pressurized water is emptied into the open through this ejection cone 23.

Instead of one atomizer chamber, several atomizer chambers can be used in the insert piece g be used if the initial pressure of the pressure medium is so great that at the Emptying opening of the last atomizer chamber one more to overcome the atmospheric Sufficient pressure excess remains.

The nozzle 15 is arranged so that it is in the apex of the distributor cone i9 ends. A narrow annular space 25 is created between nozzle 15 and 15 Distribution cone ig through which the liquid in the form of a thin veil or Films on the distributor cone 'arrives.

The distributor cone has a hollow conical shape and is on its outer surface provided with annular grooves 26 which run parallel or be spirally wound can. These grooved depressions 26 help to create a vacuum. Of the Distributor cone can also be fully worked and furthermore in the form of a double cone to have.

The distribution cone is adjustable with respect to the nozzle 15, whereby the pressure at which the liquid moves across the surface can be regulated of the distributor cone moves.

The throttling effect of the nozzle of the hollow cone 15 increases the Pressure, and the liquid is via the distributor cone 1g_ through the ring cross-section 2o of the insert g is thrown into the atomizer chamber 2.1. The spin effect is increased by the bulb-shaped expansion of the spray chamber 21 and the acute-angled fold 27 of the distributor cone ig. As soon as the liquid curtain enters in the widening atomizer chamber 21 arises in the line 7 of the connecting piece 8 a suction.

The film of water thrown into the atomizer chamber 27 goes along its walls, expands in it and mixes with that from the pipe 7 of the connector 8 entrained air, as is indicated in FIG. This creates within the conical space 28 and the conical cavity 29 of the distributor cone 1g a vacuum that extends backwards into the line 7 and from there into the one to be evacuated Apparatus is transmitting. The air sucked in from the latter contributes to the liquid curtain to break open on the circumference of the distributor cone 1g, and mixes with the pressurized water inside the spray chamber 21. The evacuation of the connected Object increases very quickly and reaches a high degree.

The liquid atomized within the chamber 21 passes from there through a constriction22 and expands again within the elongated discharge cone 23 before it exits through its opening 24.

If the jet pump according to the invention with a pressure medium of operated at a relatively low pressure, it is advisable to open the drainage opening and to provide the insert body 9 with a liquid seal to prevent penetration to prevent from air.

In Figure 5, a modification is explained, ie which the distributor cone ig has come to an end and the hollow cone 15 directly with the inlet opening 2o the chamber = i cooperates. The nozzle orifice i 5 U thus becomes the inlet opening 2o of the atomizer chamber 21 set that in the line 7 of the connecting piece 8 an uninterrupted suction effect is created.

3 and 4, a modification is explained in which the The nozzle, the distributor cone, the spray chamber and the emptying channel are ring-shaped are designed. For this purpose, the housing 3o of the jet pump consists of two plate-shaped parts that approach one another at their peripheral edges. In the interior of the double plate 30 is a similarly shaped double plate 33 is arranged, the carries a downwardly projecting pipe socket 34 in the middle. This pipe socket widens conically and is provided with a screw conveyor 35 inside. The water contained in a container 36 is raised by this screw conveyor 35 ″, when the double plates are set in rotation above the water surface.

Accordingly, pure according to the embodiment of FIG z. The distributor cone and 2 is arranged with a conically outwardly divergent manifold areas between the first constriction of the two plates 30, 30 an annular structure 38th In cross section, this annular structure 38 is designed in a V-shape.

The edge 39 of the structure 38, which is V-shaped in cross-section, is again drawn in somewhat inwards and extends into the atomizer 44 which is formed between the two outer disks 30, 30 . This atomizer chamber 41 is again constricted in an annular manner further on the outside and then merges into the annular cone 42 which opens outwards. The lower disk 30 merges at the edge into an annular bead wall 43 which ends above the upper disk 30 and in this way forms a liquid seal against the ingress of air during the rotation of the jet pump.

The inner pair of plates 33 is held between the outer plates 30, 30 by means of the stud bolts 44, nuts 46 and spacer sleeves 45.

The V-shaped distribution disks 38 are between Spacer sleeves 48 held through which the hollow stud bolts 49 are drawn. These stud bolts 49 are tubular to form an air passage.

A hollow shaft 51, which runs in ball bearings 52 and carries a belt pulley 53, adjoins the upper plate 30 with a flange So.

3 explains an example of a mounting of the hollow shaft 51 and its drive means.

The hollow shaft 51 is connected to a line by means of a coupling 54 55 connected, which o. The like. Leads to the container to be evacuated.

The hollow shaft 51 rotates at a sufficient speed offset, the nested disc structures take it with their ring-shaped interiors part. The screw conveyor 35 lifts water into the inner, Rauin the nozzle disks 33, 33, which under the action of the rotary movement on the Outer surfaces of the V-shaped structure 38 is thrown and in the form of a fine Veil enters the atomizer chamber 41 through the constrictions 4o.

During the passage this. Veil of water through the constriction 40 air is sucked in through the hollow shaft 41, which also simultaneously passes through the hollow studs 4,9 step down, so that also in the one below the inner Pairs of discs 33 located cavity a suction effect under the influence of the A curtain of liquid thrown along the lower surface of the V-shaped disk pair 38 arises and thus also entrained air into the atomizer chamber 41 from here will.

The liquid thrown into the spray chamber goes to hers along the inner wall course and creates a vacuum in the water inside the resulting Hohlraudes, from which a constant suction is exerted on the line 51.

The water used for the jet pump is after it is out of your annular cone 42 has emerged, deflected from the bulbous wall 43 upwards and forms a liquid seal above the upper plate 2o against ingress of air.

The water emerging from the space between the bead-shaped wall 43 and the outer disk 30 is caught by the annular, inwardly drawn wall 59 of the container 36 and then fed back into the container.

The. Operations within this apparatus of FIG. 3 are essential the same as in the embodiment according to FIG. The difference is that he,. requires a power drive for this version, but no pressure medium.

Claims (12)

PATENT CLAIMS: e.g. Water jet air pump with a distributor cone in a throttling cross-section of the liquid pressure line, characterized in that that the distributor cone (i9) attached to the nozzle cross-section (25) extends in the direction the outflowing hydraulic fluid expanded to the outside and then behind. one with the air suction line in connection with the ring cross-section (2o) into a initially expanding and then narrowing again (21) opens, which merges into an elongated ejection cone (23). 2. Water jet air pump according to claim i, characterized in that the distributor cone. (1 9) is hollowed out inside to form a cone (2g). 3. Water jet air pump according to the claims i and 2, characterized in that the pressure fluid nozzle (15) within the Housing (4) by means of an intermediate piece (13) and a sealing connector (i i) is held. 4. Water jet air pump according to claims i to 3, characterized characterized in that the distributor cone (i9) is adjustable by means of a rod (18) is carried by a rib (17) inside the nozzle (15). 5. Water jet air pump according to claims i to 4, characterized in that the distributor cone (ig) is provided with one or more grooves (26) on its surface. 6. Water jet air pump according to the claims i to 5, characterized in that the distributor cone (i9) runs out into an oppositely conical bevel (27). 7. Water jet air pump according to claims i to 6, characterized in that their parts are rotating bodies are formed and rotate. B. Water jet air pump according to Claim 7, characterized characterized in that the rotating jet pump housing on the one hand by means of a central tube (35) with the liquid of a liquid container (36) and on the other hand by means of a central line (51) in connection with the room to be evacuated stands. G. Water jet air pump according to claim 8, characterized in that within of the pipe (34) immersed in the liquid in the container (36) is a screw conveyor (35) is arranged. ok Water jet air pump according to claims 7 to g, thereby characterized in that by means of a bead-shaped peripheral wall (43) of the one Housing wall (3o) on the circumference of the rotating jet pump housing a liquid seal is formed, wherein the inwardly curved container wall edge (5g) of the container (36) the leakage of the liquid used to form the seal from the pump prevented and returned to the container (36). i i. Water jet air pump after the claims 7 to io, characterized in that the connection to the to be evacuated Space through the hollow shaft (51) with the drive pulley (53i and that this Feed line opens into the interior of the upper housing plate (30), which is hollow by means of Stud bolt (49) with the interior of the lower housing plate (30) in connection stands. 12. Water jet air pump according to claims 7 to ii, characterized in that that the individual the inner nozzle (33), the distribution cone (37), the spray chamber (41) and the washers forming the blow-out cone (42) by means of stud bolts (44, 49) and spacer tubes (45, 48) interconnected and attached to the upper one of the hollow Drive shaft (5r) supported plate wall (3o) are connected and that this is hollow Drive shaft is held hanging in thrust bearings (5s).