DE1000959B - Jet device with regulating device - Google Patents

Description

Jet apparatus with regulating device The invention relates to a Jet apparatus, through the propulsion nozzle of which one agent is fed, while the other means enters concentrically, with the propellant nozzle and a free cross-section thereof influencing control element are axially displaceable.

Such jet devices are mainly used to remove various substances, be they gaseous, liquid or solid, to mix with each other ;. they find, but Can also be used for conveying materials, for vacuum generation and the like by the axial displacement of the propellant nozzle and the influencing its free cross-section Regulating body, the quantities of the substances supplied can be changed.

In such jet devices, it is often desirable to use the total amount to regulate the substances without changing the ratio of the proportions. Both previously known jet devices, this is only possible because the quantities of substances fed in through the axial movement of the propellant nozzle and its free Cross-section influencing control organ separately and independently of each other in the same Ratio can be changed. In addition to the inconvenience, such a regulation is liable the further disadvantage that only a relatively small control range can be achieved, since it has been found that there is also a change for a wide control range the outlet cross-section of the mixing nozzle is necessary.

According to the invention, these disadvantages are eliminated by the regulating element the driving nozzle, the driving nozzle itself, as well as the outlet cross-section of the mixing nozzle (Diffuser) influencing regulating element inevitably with one another via screw threads are coupled, the screw thread and: the openings to be changed forming parts are coordinated in such a way that with axial displacement of the motive nozzle its free cross-section and at the same time the inlet and outlet cross-section the mixing nozzle or the diffuser cross-section can be changed.

The three decisive cross-sections are called the regulation continuously changed in an inevitable dependence on each other.

Further advantageous features of a designed according to the invention Jet apparatus result from that shown in the drawing and below described embodiment, the application of the invention to a jet apparatus known construction shows, for example.

Fig. 1 shows a longitudinal section through the entire S trahlapparat; Fig.2 shows a longitudinal section through the suspension of the linkage in an enlarged manner Scale; Fig. 3 shows a longitudinal section through the connection of the two rods on a larger scale. In the Strah lapparat 1 is a propellant nozzle 2 by means of a Thread 3 used, which is operated by means of a handle 4 from the outside can be. In the protruding part 4 of the driving nozzle 2 is a feed pipe 5 used by means of a seal 6. Located at the outlet end of the supply pipe a retaining cross 7, in which a threaded bolt 8 is firmly embedded. on this threaded bolt 8 is an internally threaded sleeve 9 of a two-part Rod 10, 11 screwed on. This sleeve 9 has a rectangular cross section on the outside and is encompassed by a second retaining cross 12 firmly connected to the propellant nozzle 2, wherein the holding cross also has a square opening 13 through which the Sleeve 9 can slide through. The sleeve 9 is so when the driving nozzle is rotated 2 on the bolt 8 on or from this. unscrewed so that accordingly also the rod 10 and a conical control member firmly connected to it 14 moves downwards. This control member 14 has an internal thread 15 so that at the simultaneous rotation of this organ the lower rod part11 with a thread 16 in the. tapered part 14 is screwed in or out and here depending on the direction of rotation raises or lowers, so that the conical control element 17 in the Mixing nozzle is moved up or down accordingly '. Parts 11 and 17 are at the exit end of the jet device in turn secured against rotation by a square 18. This square 18 is guided in a corresponding opening 19 of the retaining cross 20.

The device works in the same way that when the Driving nozzle 2 and with a right-hand thread 3 the cross-section at 21 is narrowed. At the same time, the linkage 10 as a result of the sleeve 9 being carried along by the retaining cross 12 moved downwards, so that the cross section at 22 also experiences a reduction. The rotary motion of the conical Part 14 has to continue to Result that the linkage 11 moves with the conical part 17 upwards, and thereby the cross section at 23 is also reduced. With, reverse movement of the Driving nozzle 2, the cross-sections at 21, 22 and 23 are simultaneously corresponding enlarged. In this way, only by operating the handle, 4 all three effective cross-sections can be changed continuously.

The invention is not limited to the illustrated form of the Jet device still on the intended nozzle shape.

In each individual case, the adjustment of the jet device can be made the decisive variables, such as pressure, quantity ratio, change in performance, etc., through the choice of thread pitches and the shape of the displacement body and the corresponding walls.

The aerodynamic difference caused by the installation is this annular cross-section compared to the circular cross-section of conventional jet devices can be corrected by correcting the cross section and choosing the shape of the displacement body will.

It is also possible to use more or more of the displacement body of the propellant nozzle to leave less inside the nozzle when there is e.g. B. the mixing space piece between Ring cross-section and diffuser made necessary by a necessary short overall length. The shape then becomes more compact, and the thread pitch is less.

For large cross-sections, the displacement bodies can be split into individual ring bodies be divided either without rotation, held by a square, like already described above, axially displaceable by a rotating threaded spindle or which move axially while rotating on a fixed threaded spindle.

Claims (2)

PATENT CLAIMS: 1. Jet apparatus, through whose propulsion nozzle the one Agent is supplied while the other agent enters concentrically, the Propellant nozzle and a regulating element influencing its free cross section, axially displaceable are, characterized in that the control element of the driving nozzle, the driving nozzle itself, as well as a control element influencing the outlet cross-section of the mixing nozzle (diffuser) are inevitably coupled to one another via screw threads, the screw threads and the parts forming the openings to be changed are matched to one another in this way are, that is, when the propellant nozzle is axially displaced, its free cross-section and at the same time the inlet and outlet cross-section of the mixing nozzle or the diffuser cross-section changed will. 2. Jet apparatus according to claim 1, characterized in that the propellant nozzle is arranged hinelnschraubbar in the jet apparatus by means of thread and that the Control organs from two attached to a linkage, z. B. conical, in the area the cross-sections to be changed are arranged structures, the linkage Assembled in the jet device from two parts that can be screwed into one another with a thread is, of which the upper part is connected to the propellant nozzle, but axially Has movable sleeve which, when the propellant nozzle rotates, moves onto one in the supply pipe fixed threaded bolt unscrewed and unscrewed and of which the lower part is arranged axially movable-Lich by guidance in a prism, so that upon rotation of the upper part of the rod, the lower rod part is in a threaded hole of the former screwed in or out.