DE519895C - Steam turbine - Google Patents

Description

Eur. Ind. Eigendom.

22 APE. 1931

ISSUED ON MARCH 5, 1931

REICH PATENT OFFICE

PATENT LETTERING

JVl 519895
CLASS 14c GROUP 22

The Buda Company at Harvey, 111., V. St. A.

Steam turbine
Patented in the German Empire on March 2, 1927

The invention relates to a steam turbine in which the housing in a known manner consists of three interconnected parts, the two being self-contained Spaces are limited, in one of which the turbine runner and in the other the controller is housed. The purpose of the invention, the individual spaces within the turbine housing so against each other to seal that the steam and the condensation products of the impeller chamber do not enter can step into the controller room or into the storage room.

In the particular embodiment according to the invention, this is the turbine runner bearing bearings arranged in a manner known per se within the impeller. This As mentioned, storage should also be protected against the ingress of steam and moisture will.

According to the invention, the arrangement is made so that the include the impeller space Transverse walls with annular ribs that come right up to the turbine disk are provided, through which the impeller space in two concentrically nested spaces inside, which is connected to the outside air by special ducts is, there are cap-shaped hub lugs of the turbine wheel, which is in itself known manner arranged in the interior of the impeller, the impeller bearing ball bearings enclose and with cylindrical extensions that enclose the turbine impeller space Penetrate transverse walls, the penetration leading to the regulator room being sealed by lids. As a result the rapid rotation of the turbine rotor, the air is sucked out of the space surrounding the bearing point and into the Promoted steam space of the turbine housing. At the same time, fresh air flows in from the outside, so that steam cannot enter the space surrounding the store.

The invention is shown in the drawing, for example, namely shows

Fig. Ι a longitudinal section through the steam turbine;

Fig. 2 is a cross section of Fig. 1.

The turbine housing is composed of parts 2, 3 and 4, which are tightly connected to one another by flange connections. The housing wall between parts 2 and 3 is denoted by 5. The turbine shaft 8 passes through an opening 9 of the housing part 2 and carries the turbine runner iS. To support the shaft 8, a special bearing sleeve 10 is provided which penetrates the opening 9 and is held by a special yoke 11 which is screwed to the transverse wall of the housing part 2 at 13. With 14 the ball bearing is designated. The outer track 16 of the ball bearing is attached to the turbine runner 18 there-

held by that a special hood 19 is attached to the turbine rotor by screws 20. A hub piece 21 of the hood 19 also penetrates the opening 9 in the transverse wall of the housing part 2 and protects This already means that steam or condensate can penetrate the storage room.

The cylindrical extension 22 of the hub of the turbine runner 18 is passed through a bore 2T in the transverse wall 5 and provided with lids 24 for sealing purposes in order to seal the space of the turbine impeller from the space in which the regulator 25 is located. The steam is fed to the blade ring 29 of the turbine rotor via a valve 26 and the guide vane set.

As can be seen from the drawing, the boundary walls of the housing part, in which the turbine rotor rotates, axially inwardly directed annular ribs 31, 32, which come close to the runner, so that only a relatively narrow gap 35 between the ribs on the one hand and the runner on the other hand. In this way, an annular space 34 surrounding the bearing assembly is formed, the another space 33 surrounds concentrically, which is the actual steam space of the turbine can be viewed. The space 34, the left and right of which is located on the running disk Parts are connected to one another by bores in the manner stands out through channels 36, 37, 38 in connection with the outside air. During the rapid rotation of the rotor 18 is due to the centrifugal force in the annular space 34 air by means of the rotor thrown through the gap 35 into the steam space 33. In this way, a certain negative pressure arises in the space 34, so that air constantly flows in through the channels 36, 37, 38 from the outside and that in the room 33 located steam or the condensate can not penetrate into the space 34, whereby not only is the warehouse itself protected against steam and moisture, but also the Seals against the controller room on the one hand and on the other hand supports the space that connects to the electrical unit will.

Claims (4)

Claims: τ. Steam turbine, both of which are the housing consists of three interconnected parts, the two self-contained Limit spaces, in one of which the turbine runner, in the other the Controller is housed, characterized in that the turbine wheel space enclosing transverse walls with up close. approaching the turbine disk Annular ribs (31, 32) are provided, through which the turbine wheel space in two concentric nested spaces (33,34) is divided, in their inner (34), the is connected to the outside air by special channels (36, 37, 38), becoming cap-shaped Hub approaches of the turbine wheel are located, which is known in itself Way arranged inside the turbine wheel, the impeller bearing ball bearings include and with cylindrical extensions (21, 22) which the turbine wheel space encircling transverse walls penetrate, the penetration leading to the regulator room sealed by lids is. 2. Turbine according to claim 1, characterized in that the with the turbine wheel (18) connected hood (19) into a on the housing (1) attached Yoke (11) extends and with a cylindrical support (21) a bearing of the Shaft (8) bearing sleeve (10) enclosing cylindrical extension (12) of the Surrounding yoke. 3. Turbine according to claim 1 and 2, characterized in that the bearing (14) on the one hand by a collar of the bearing sleeve (10) and on the other hand by the cylindrical \ ^T extension (12) of the yoke is secured against axial displacement. 4. Turbine according to claim 1, characterized in that the circumference of the Turbine wheel (i) enclosing annular chamber (33) with the near the Shaft arranged vacuum chamber (34) through a narrow slot (35) communicates through the up close ring ribs (31, 32) sufficient to reach the turbine wheel is formed. For this purpose ι sheet of drawings