DE2228797A1 - HIGH PRESSURE FAN - Google Patents

Description

From the magazine "Kerntechnik", 13th year 1971, Mr. 3, Pages 118 "to 121, a high-pressure blower is known which contains a rotor part with gas ducts, the inlet sides of which in the height of the rotor axis and their outlet sides are further away from the rotor axis.

If such a rotor is set in rotation, the centrifugal force creates that located in the gas guide channels " Gas a pressure difference between the inlet and outlet side, which determines the blower effect.

For certain applications you need a fan with as much as possible small outer diameter, but still a large one Ensure pressure difference at high throughput. the In addition to the speed and the dimensions of the gas ducts, the delivery rate of the blower is essentially through the radial distance of the inlet side from the outlet side of each gas guide channel in the rotor is determined. For this Basically, it is advantageous to achieve a small outside diameter of the fan, the inlet sides of the gas ducts as close as possible to the rotor axis. In the known arrangement, however, is a minimum limit by the Dimension of the rotor shaft given. This is especially true when the blower draws in gas from the outside and axially into the Intended to blow inside a cylinder.

309881/0155

- 2 - VPA 72/3111

The object of the present invention is to provide an arrangement with increased effectiveness in which on the size The motor shaft is not taken into account when determining the points for the inlet sides of the gas ducts must become.

Me invention thus relates to an arrangement according to the preamble of claim 1. The novelty consists in the technical teaching contained in the label. An advantageous further development of the arrangement is described in the dependent claim.

As an exemplary embodiment of the present invention, a high-pressure fan is shown in longitudinal section in FIG. 1 and in FIG shown in a cross section. A particularly favorable shape for the spacer bolts can be seen in the section according to FIG. 3 see.

In Figure 1, a rotor 3 is attached to the shaft 1 of a motor 2, the inside of a cylindrical housing 4 with the engine 2 is mounted. The rotor 3 consists of a rotor part 5 which is directly connected to the shaft 1 of the motor 2 is; and a rotor part 6 which contains gas ducts 7 and is connected to the rotor part 5 via gas guide bolts 8 distributed around the circumference. Inside the A further cylinder 9 is arranged in the cylindrical housing 4. In the space between the cylinder 9 and the cylindrical Housing 4, the gas to be supplied to the high-pressure blower, e.g. helium, is guided and through deflection pieces 10 from the axial deflected inward in the radial direction. A flow cone 11 is used to guide the flow after the gas has left rotor 3.

As indicated by arrows that are not designated, the gas passes through the spaces between two spacer bolts into the interior of the rotor between the rotor part 5 and the

309881/0155

- 3 ~

Rotor part 6, without executing any significant rotary movement. Then it flows into the inlet openings 12 of the gas guide channels 7. Since these gas flow channels 7 with the Rotate rotor 3, the inflowing gas is set in rotary motion and by the centrifugal force in the direction of Thrown outlet side 13 of the gas flow channels 7, from where it enters the cylinder 9 axially.

In contrast to FIG. 2, there are more than three spacer bolts in FIG 8, which are provided with flat cross-sections in the area between the rotor parts 5 and 6. These cross sections are arranged in such a way that they push the gas from the outside inwards, thus ensuring that inside the rotor higher pressures than exist outside the rotor on the intake side, without the first in the gas ducts 7 effective centrifugal force must be effective. Through this the effectiveness of the high pressure blower is additionally increased.

2 claims

3 figures

309881/0155 - 4 -

Claims (2)

Claims f 1.) having a high pressure blower with a gas duct Rotor, "in which the inlet sides of the gas ducts closer to the Eotorach.se than the outlet sides, thereby characterized in that the rotor part (6) containing the gas ducts (7) has spacer bolts distributed around the circumference (8) is connected to the shaft (1) of the drive motor (2) and that the spaces between the spacer bolts (8) serve as air intake openings. 2. High pressure blower according to claim 1, characterized in that that the spacer bolts (8) in the area of the air intake openings have such a cross section that when rotated inside the rotor results in a pressure increase compared to the outside. 309881/0155