DE2126500A1 - Saugmischvornchtung for generating a gas-air mixture - Google Patents

Description

Saugmiachvorrichtung for generating a Gaa-Luft-

Gemiach.es,

The invention "relates to a suction mixing device in which dag Leakage of gas is used to create a negative pressure condition in the vicinity of the flowing gas, which is used to feed atmospheric air into the gas flowing into the gas draw and create a gaa-air-iremiach.

Atmospheric suction devices are and will be used quite generally. The gas was under pressure previously through a single opening in the cross-section of the neck Saugmiachvorriohtung released. The energy generated by the flowing gas is created by the pressure under which the gas is stored and this pressure is greater than the atmospheric pressure. The energy that the sucking in of the air creates to mix with the gas is derived from the speed derived, with the daa Gae in the cross-section of the throat Suction mixing device is dispensed. This energy is greatest at the • exit end of the opening and in this area there is a maximum potential for energy conversion when the air is sucked in. ·

Ea is an object of the invention to provide an arrangement so that air enters the zone immediately next to the outlet end

one

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a number of openings through which the gas is discharged into the throat cross-section of the suction mixing device, so that there is less energy loss than in the pail in which a single opening is provided which has a flow capacity substantially equal to that of the sum of openings iat. The invention thus relates to an arrangement in which the gas is discharged through a number of openings so that the energy of the exiting gas flow can be fully or better utilized. Another object of the invention is to provide an atmospheric suction mixing device "in which the gas into the throat section is discharged through a number of orifices to provide improved air suction into that throat section, this improvement being in the range of 4 1/2 $> , with noise attenuation of ad "b in the range of 150 to 300 hz and noise attenuation of 11 db in the frequency range of 1200 to 4800 hz.

Further objects and features of the invention are set out in the The following description will be explained with reference to the figures of the drawing. Show it:

Fig. 1 is a longitudinal sectional view of an inventive S augmi s ohvorri ohtung,

Figure 2 is a sectional view taken along line 2-2 of Figure 1;

Figure 3 is a sectional view taken along line 3-3 of Fig. 1,

Fig. 4 is a partial sectional view of a modified embodiment ■,

Figure 5 is a sectional view taken along line 5-5 of Fig. 4,

Fig. 6 109851/1090

6 shows a longitudinal section view of a further embodiment,

Figure 7 is a sectional view taken along line 7-7 of Fig. 6, and

Figure 8 is a sectional view taken along line 8-8 of FIG. 6.

The invention relates to a device for sucking air into a gas when this is discharged into a pipe section in which the gas and the air are mixed and The invention relates to a suction mixing device in which atmospheric air at the exit end of each of the views! of openings is available through which Gas released into the cross section of the suction device will.

In Fig. 1, a tube 10 is shown in which aich a elongated chamber 11 is located in the da.3 gas with the Air is mixed to form a gas-air mixture. The upstream end portion of the tube 10 is widened so that a trumpet-shaped mouth 12 is formed will. The inner surface 14 of the tube 10 is übar one Cylindrical length four times the diameter atromab from the exit end of a dispensing orifice for which gas is measured. Thereafter, the inner surface 15 widens outward in the manner that a conical surface is formed so that the gas-air mixture The sections of the suction-mixing device are of known construction and in the known suction-mixing devices daa gas is discharged from a single opening which is aligned with the axis of the tube 10. Through the Movement of the gas creates energy for sucking the air into the mouth of the pipe 10.

the 10 9 8 5 1/10 9 0

The invention relates to a suction-mixing device in which the gas is discharged from a number of openings, the gas thereafter in the throat cross-section of the tube 10 moved into it. A tube 16 extends from a source in which there is gas under pressure and the gas moves into a line 17 as it does in Pig. 1 is shown. A plate 18 can be welded onto the line 17 or otherwise fastened to this and this plate 18 is fastened to the tube 10 by means of screws 19. The screws extend into threaded holes in the trumpet mouth section 12 of the tube 10 and the plate 18 from the upstream end of the tube 10 duroh spacers 21 held at a distance that the screw bolts 19 surrounded.

A number of openings are in the plate 18 for exit of the gas out of the chamber 22 is provided. This chamber 22 is located in line 17. Eei in Pig. 1 shown From the embodiment, the openings 23 are through nozzles 24 which are carried by the plate 18 and which are in communication with the chamber 22. The nozzles are circumferentially spaced as it is in]? ig. 2 is shown ".

The speed of the outflowing gas is maximum at the outlet ends of the nozzles 24 and in the area of this zone there is a maximum possibility for energy conversion for sucking in the air. Air under atmospheric pressure can reach the outlet ends of the nozzles 24 through the openings between the plate 18 and the irompet mouthpiece 12 of the tube 10. Atmospheric air is available at the outlet ends of the openings 23 and the energy loss is less than in the pail, in which there is a single opening having a flow capacity equal to that of the plurality of openings

10 9 8 5 1/10 9 0 .

Openings 23 / shown in FIGS. 1 and 2 correspond. The air is available at the outlet ends of the openings 23 and a greater amount of energy is generated for the air to be drawn in by the gas flow. The energy of the flowing gas is used in this way with a greater degree of efficiency, and the improvement is 4 1/2 times compared to suction devices in which the gas is discharged through a single opening. The distribution of the openings 23 within an area, which is determined by the inner surface 14 of the tube 10, enables a reduction in the noise which is generated by the escaping gas and by the suction of air into the tube.

In another embodiment of the invention, the gas from the line 16 passes into a connection 26 and this Connection many a plate-shaped part 27, which is held at a distance from the upstream end of the tube 10 will. The gas moves through the plate 27 into a line section 28. An outlet port 33 is aligned with the axis of the tube 10. A number of lines 34 are in communication with the line section 28 and these lines have outlet openings 36 which extend in the circumferential direction are spaced from one another around the axis of the assembly. Air under atmospheric pressure is at the outlet ends of the outlet openings 36 and the outlet opening 33 available. The speed of the escaping gas is maximum at these points. the Air moves into the streams of exiting gas a through the open areas between the Distance pieces 21. The energy of the flowing gasea is used with maximum efficiency to suck in the air.

Another embodiment is shown in FIGS. 6 to 8

shown .

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shown. In this embodiment it is pressurized standing gas is supplied to a connection 37 which is equipped with a plate section 41. This slab section 41 is supported at a distance from the upstream end of the tube 10. A line section 42 takes this Gas from line 16 on. The gas is discharged into a number of hollow, radially disposed arms 46. A number Openings 47- is provided in each arm, as is the pig. Figures 6 and 7 show “Atmospheric pressure air is available at the outlet ends of the outlet openings 47. At these points the speed is dea outflowing gas, so that the flow energy for anaaauding the air into the tube 10 is used to the maximum can be.

The invention has been made with reference to specific embodiments described, whereby elements have been described by which are arranged in the circumferential direction at a distance from one another Outlet openings are formed. Changes can be made in these components as well as in their overall arrangement which are within the scope of the invention.

Claims

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Claims (5)

P a t e η t a η s ρ r ü c h. βΓ-; 1. Suction-mixing device with a tube, which is an open upstream end, a plate held upstream of the tube and spaced from the open end viird and means by which gas is supplied under pressure to the upstream side of the plate, characterized in that a number of openings are provided on the downstream side of this plate, whose axes lie within an area that is defined by the ■ The inner wall of the pipe is limited. 2. suction-mixing device according to claim 1, characterized in that that a number of circumferentially spaced nozzles are carried by the plate and that these nozzles have the outlet openings. 3. suction-mixing device according to claim 1, characterized in that a tube on the downstream side of the plate receives the pressurized gas and that from this pipe a number of conduits extend which Have outlet openings which are arranged at a distance from one another in the circumferential direction and which the GaB in daa Hand in the pipe. 4. suction mixing device according to Anspruoh 1, characterized in that that an outlet opening in the axis of the pipeline is provided. 5. suction-mixing device according to claim 1, characterized in that a tubular element is arranged downstream of the plate is and the gas receives that a number of radially arranged arms is carried by the sem tubular element that these radial arms have outlet openings for discharging Gaa into said tube. 10 9 8 5 1/10 9 0