DE1042173B - Device on jet blowers with continuous supply of propellant - Google Patents

Description

Equipment on jet blowers with continuous supply of propellant The invention relates to a device all jet blowers with continuous Supply of the propellant, in particular for conveying gaseous agents.

The inventive novelty consists in the fact that means are @ -provisioned, which act on the propellant flow in such a way that the exiting from the jet pipe Propellant gas jet arbitrarily periodically interrupted before it emerges from the jet pipe and in individual propellant jet sections flowing one behind the other at a distance or shocks is dismantled.

In the case of jet blowers of the known training, this is to be promoted Means by a propellant gas jet flowing continuously out of the jet pipe promoted. Jet blowers of this type have only a low level of efficiency, as they are the agent to be conveyed must be admixed with the propellant gas jet in order to be carried away by it and to be promoted. To this admixture, however, leaves the nozzle from the nozzle exiting propellant gas jet only gives relatively little space to the agent to be conveyed, since the space enclosed by the gas exhaust pipe above the jet pipe outlet is separated from the Propellant gas flowing out into this space is filled.

Jet blowers are also known in which di @ c exhaust gases from internal combustion engines form the propellant. Is the internal combustion engine supplying the propellant Piston engine, the jet of propellant points to one another according to the individual following exhaust cycles on pressure fluctuations. A decomposition of the propellant jet Les steps against it in individual, completely separate propellant puffs not a, so that even with a jet fan operated in this way, a substantial increase in delivery rate is not achievable.

A jet fan is also known in which the free cross section of the jet pipe blocked by a movable, flap valve-like shut-off element and can be released arbitrarily.

By means of jet blowers according to the invention is the Compared to acquaintances achieved that the flow of the propellant gas emerging from the propellant nozzle is divided into separate sections that are spaced one behind the other flow in and escape through the gas exhaust pipe into the chimney.

The operation of the device according to the invention is such that the gas to be promoted is promoted by the propellant gas in such a way that the to conveying gas In each case in the space between two following each other at a distance Sections or bumps of the propellant flows in and fills them in order to then conveyed into the chimney between the blows of propellant flowing through the gas exhaust pipe to become.

By periodically interrupting the jet of propellant. between The spaces to be conveyed flows from the individual blows of propellant Funds and fills these spaces. This inflow of the still to be conveyed in these spaces between two propellant shocks by the pressure difference between the pressure in the interstices and the pressure of the gas to be conveyed, the pressure in the spaces below the pressure of the to be pumped is located. This negative pressure in the gaps arises as a result an inertia-based additional outflow of the outflow through the gas exhaust pipe Gases. The result is an effective increase in the delivery rate of the invention trained jet blower.

In a further development of the invention, the splitting of the propellant gas jet into individual bursts flowing one behind the other at a distance through a known one Caused shut-off member that alternately shuts off and releases the jet pipe. This shut-off element can consist of a movable interrupter in the manner of a rotating, with slotted or apertured disc that are driven by a drive is rotated and the free cross section of the jet pipe alternately releases and covers. It is Z. B. also possible, the shut-off as a back and forth moved here To train slide, which is moved by a crank mechanism.

To achieve the greatest possible promotional effect of the invention Device is advantageously provided a device that the opening and closing time intervals of the shut-off element in such a way that the closing time for the jet pipe approximately equal to the length of the tube part of constant clear width of the above Jet pipe outlet arranged gas exhaust pipe divided by the speed of the propellant jet emerging from the jet pipe.

The invention is illustrated, for example, in the drawing, and 1 shows a central longitudinal section in the line I-I according to FIG. 2 through a Jet blower with interrupter designed as a rotatable disk and FIG. 2 shows a Side view of the jet fan with a top view of the interrupter disk.

The jet pipe 1, to which the propellant gas from the propellant air fan (not shown) is fed, opens into a chamber 2 into which the fox 3 opens. On the The exit of the jet pipe 1 is a conically narrowing short pipe section 4 arranged on which the gas discharge pipe 5 is placed. The gas discharge pipe 5 opens into the diffuser 6. The disk 7 is transverse to the longitudinal axis of the propellant gas inlet line 9 of the jet pipe 1 is rotatably arranged and is rotated by the drive 8 Movement. The diameter of the disc 7 is approximately equal to or greater than twice the clear width of the propellant gas inlet line 9. In the disk 7 are the slots or openings 10 of one of the clear widths of the propellant gas inlet line 9 arranged corresponding size, so that this when rotating the disc 7 is the clear The width of the propellant gas inlet line 9 release, while the spaces between the openings 10 cover the clear width of the propellant gas inlet line 9 and thus break through the propellant gas flow. When the disk is turned, the Propellant gas inlet line closed and then through the openings 10 in the disc 7 released. As a result, the propellant emerging from the jet pipe 1 becomes into individual sections or propellant bursts, which correspond to the rotational speed the disc 7 have a more or less large distance from each other, divided, which then flow off one behind the other at a distance through the gas exhaust pipe 5, while the means to be conveyed in the spaces between two consecutive ones Propellant surges flows in and then with the outflowing propellant sections flows out together.

Claims (7)

PATENT CLAIMS: 1. Device on jet blowers with continuous Feeding the propellant, in particular for conveying gaseous agents, characterized by means which act on the propellant flow in such a way that that from the jet pipe (1) escaping propellant gas jet before it emerges from the jet pipe (1) arbitrarily periodically interrupted and in individual propellant jet sections flowing one behind the other at a distance or pushes is dismantled. 2. Device according to claim 1, characterized in that that the free cross section of the jet pipe (1) in a known manner a movable shut-off member alternately blocked and released in a running sequence will. 3. Device according to claims 1 and 2, characterized in that the Shut-off member made of a rotatable disc provided with slots or openings (10) (7), which is moved by a drive (8). 4. Device according to the claims 1 and 2, characterized in that the shut-off member is movable to and fro Slide exists. 5. Device according to claims 1 to 4, characterized in that that the drive for the shut-off member from the drive for the propellant blower is derived. 6. Device according to one of the preceding claims, characterized characterized in that means are provided by the changes in the opening and Closing time intervals of the shut-off element can be brought about. 7. Device according to claims 1 to 6, characterized by a device which influences the opening and closing time intervals of the shut-off element in such a way that the closing time for the jet pipe is approximately equal to the length of the pipe part of constant clear width of the gas outlet pipe arranged above the jet pipe outlet ( 5) divided by the speed of the propellant jet emerging from the jet pipe (1) - it is. Documents considered: German Patent Specifications I \ r. 575 150, 890 257: British Patent No. 781847.