DE3707992C2 - - Google Patents

Description

The invention relates to a transmission, in particular for Turbine compressors, according to the preamble of claim 1.

Such a transmission is from an article "Druckkämme" by G. Basedow known from the magazine Technica 12/1984, pages 65-69. Further Gearboxes with pressure combs are from DE-PS 4 01 652, DE-OS 29 24 349 and DE-OS 30 47 334 known. Pressure Comb combs the axial forces inside of the meshing gears their teeth that are oblique to the axial direction arise to compensate within these gears and thereby thrust bearing to accommodate such Avoid axial forces.

For driving very fast running machines, such as turbine compressors are very high speeds required. These are by Ge  drives generated which has a relatively low rotation number of a prime mover, for example one Electric motor, to the desired high speed walk. This is done in known facilities through single-stage gearbox with a diameter large drive gear and one with it in one handle located, small diameter gear. Due to the large diameter of the drive gear has this very large flee at high speeds powers. The use of pressure combs in the known gears also leads to large axial Lengths of the gear and pressure combs Units. As a result, the well-known gear Compression units with large flywheels. Size Flywheels have the disadvantage that accordingly strong bearings for these flywheels and high loads power for driving this momentum masses are required. Another disadvantage there are many known gears with pressure combs in the fact that in the manufacture of the teeth the tooth wheel the pressure combs on at least one end face the gears axially extend and retract of grinding wheels in the tooth gaps at the tooth prevent production, or the pressure combs with so large axial distance from the gears must be that other disadvantages arise. Such other disadvantages are the risk of torsion Interlocking due to large gaps between the tooth wheel bearing, and large axial dimensions.

The object of the invention is to be achieved a simple gear to translate a low rotation number to create a very high speed, which with a large center distance between a drive shaft and an output shaft has only a small flywheel.  

This object is achieved in a generic transmission according to the invention by characteristic features of the Claim resolved.

The following advantages result from the invention: Small flywheels, even if the center distance between an input shaft and an output shaft is very large; only one wheel needed Combs to compensate for the axial forces of the single-helical toothing of the gears; small Dimensions in radial and axial direction; a total of simple and inexpensive construction; all gears can be produced in a simple manner, since the Pressure combs are arranged so that they are axial Retracting and extending grinding wheels to the fro position of the teeth of the gears, especially with the output gear designed as a pinion  gear, which preferably together with a Shaft consists of a one-piece part.

The invention is described below with reference to the Described drawing, which is a preferred off management form of the invention shows.

The drawing shows a gearbox in axial section Drive of turbine compressors.

The gearbox consists essentially of a drive gear 4 arranged in a rotationally fixed manner on a drive shaft 2 with a single helical toothing 6 and two end faces on both sides in front of the annular collars 8 seen radially within the toothing 6 ; an arranged on an intermediate shaft 12 intermediate gear 14 with a simple helical toothing 16 which engages with the helical toothing 6 of the drive toothed wheel 4 , and two pressure combs 18 , one of which is fastened on each end face 20 of the intermediate toothed wheel 14 by fastening means 22 ; and a provided on an output shaft 32 from drive gear 34 , which has a simple helical toothing 36 , which is in engagement with the helical toothing 16 of the intermediate gear 14 . From the drive shaft 32 and the driven gear 34 together form a one-piece pinion. The output gear wheel 34 is provided on both ends with a short, over the end ends 37 of the teeth 36 protruding, but only beginning at the tooth base 39 approach 38 . The approaches 38 form end faces sliding surfaces 40 , and the end faces 42 of the ring collars 8 of the drive gear 4 form sliding surfaces, which interact with opposite end sliding surfaces 44 of the pressure combs 18 and prevent axial divergence of the three gears 4 , 14 and 34 .

All three toothings 6 , 16 and 36 have the same width, ie the same length in the axial direction. The ring collars 8 and the lugs 38 project axially only slightly beyond the front ends 37 of the toothings 6 , 16 and 36 , but are located radially within these toothings. The pressure combs 18 are also at a corresponding small distance from the front ends 37 of the intermediate gear 14 . As a result, in the engagement areas, in which the toothing 6 engages with the toothing 16 and the toothing 16 engages with the toothing 36 , gaps 48 are formed on the end face, via which oil into the tooth gaps between the teeth of the toothing 6 , 16 and 36 can flow in or flow out. This prevents the teeth from overheating in the engagement areas.

The pressure combs 18 have the shape of rings with an intermediate space 48 forming an annular recess 50 on the end faces 20 of the intermediate gear 40 facing insides. The Ausneh lines each extend from the radially outer periphery of the pressure combs 18 to at least the tooth base of the toothing 16 of the intermediate gear 14th The outer diameter of the pressure combs 18 is only as large as is necessary so that the sliding surfaces 44 can rest against the sliding surfaces 32 and 42 . The inner diameter of the annular pressure combs 18 is chosen as large as possible, as the fastening means 22 allow, so that the central opening 54 of the annular pressure combs 18 is as large as possible and thus a lot of mass is saved.

The drive shaft 2 is driven by a drive 60 , preferably an electric motor. From the drive shaft 32 drives two mutually opposite sides of the output gear 34 turbine compressors 62 . Axial forces can be transmitted from the drive 60 and from the compressors 62 to the transmission. To support these axial forces 32 thrust bearings can be attached to the drive shaft 2 and the output shaft. Short power transmission paths and a smaller number of thrust bearings are obtained when such axial forces are transmitted to the idler gear via the pressure combs 18 and taken up by thrust bearings 64 and 66 , which are arranged on the intermediate shaft 12 and of which the one thrust bearing 64 Compressive forces in one axial direction and the other thrust bearing 66 absorbs compressive forces in the opposite axial direction. Furthermore, radial thrust bearings 68 are provided for taking up radial forces on all shafts.

In the case of turbine compressors 62 , the housings of which have very large diameters, the center distance between the drive shaft 2 and the output shaft 32 is also very large in order to get past one of the compressors 62 to the drive 60 . If this large center distance is bridged with only two gears, at least one of these gears must have a very large diameter, which represents a large mass. The total mass of all gears including pressure combs is reduced according to the invention by using a total of three gears 4 , 14 , 34 . The intermediate gear 14 can have the same size, larger or smaller diameter than the drive gear 4 .

According to the preferred embodiment shown in the drawing, the drive gear 4 has a larger outer diameter than the intermediate gear 14 , and the intermediate gear 14 has a larger outer diameter than the driven gear 34 . The transmission thus translates twice a low input speed into a higher output speed.

Claims (1)

Gearboxes, in particular for turbine compressors, with parallel shafts, at least one of which is mounted in an axial thrust bearing, and with gearwheels which are supported in one direction and which mesh with one another, one of which has an annular pressure comb on both sides in addition to the toothing , whose lateral inner end faces protrude radially beyond the tooth heads of this gear and bear against the lateral end faces of another gear meshing with this gear in order to absorb axial forces generated by the helical teeth, and with spaces between the lateral ends of the meshing teeth and the pressure combs for the circulation of liquid , characterized,
that the gear ( 14 ), which has a pressure comb ( 18 ) on both sides, is an intermediate gear which meshes with a drive gear ( 4 ) and an output gear ( 34 ) at the same time,
that the annular pressure combs ( 18 ) on the end faces ( 20 ) of the intermediate gear ( 14 ) are fixed after the production of the toothing, and
that the shaft ( 12 ) of the intermediate gear ( 14 ) is mounted in the thrust bearing ( 64, 66 ).