DE2004006C3 - Plain bearings for turbo machine shaft - Google Patents

Description

That known camp comes from

40 a very early period in which there were machines which Bending critical shaft speeds would have taken into account

For must or can be rotated at high speeds in plain bearings, not yet existed. fende machine parts, it is often difficult to the invention specified in claim 1 is

On the other hand, the exact value of the critical speeds is based on the task of the adjustability of the game second or higher order to be determined arithmetically between the shaft and the sliding surfaces of the bearing men and, on the other hand, to enable these critical speeds to be placed outside the operating speed range. The same level that can be achieved with such a plain bearing

One of the reasons for this lies in the difficulty of moderate and concentric adjustability of the bearing electrodes Calculation of the elasticity and damping sliding surfaces of the tiltable bearing shell segments efficient, which by means of the type of support by means of 50 makes it possible first of all to do an approximate calculation a hydrodynamic lubricating film are given to carry out critical speeds, in particular coefficients, their influence quite considerably with the other a calculation of the critical speeds Increase in speed increases. second order, which are more difficult to calculate

Moreover, the coefficient of elasticity is so small as that of the first order, and then this is more critical and consequently influences the critical speeds all the more - if this is necessary table speeds, the lower the pressure load should be - by adjusting or adjusting the bearing end Slide bearing is. It can be seen that, for example, when the machine is started up in a The speed increases, for which a Turbuma speed range needs to be relocated in which it does not allow for a subsequent shift is designed, the specific exposure of the part can have effects, ger - d. H. the ratio of static forces like 60 It is also possible to use these speeds enough the weight of the runner and the throttle thrust to support high, what is often desired and what is necessary the bearing shells - the tendency shows smaller special a company with the smallest bearing game to become. is equivalent to. This smallest bearing clearance can occur during

For technological reasons it is seldom the operation depending on the static possible, the diameter of the journal of the 65 pressure in the oil film and the temperature increase of the Shaft can be determined in the same ratio as this oil mentioned above, th forces to change. For a machine that works in different turning

Now an analytical investigation shows the number ranges one can work for each one

Speed range determine a bearing play with which it is possible to find _{the number of} tilting axes 8. on which the critical speeds from the bepiertb ^^^^ ekimS. The tilting axes 8 matching normal speed range, the Ijgpiselirfensesm «« »JPP _RadialschlUz cn 9 of the gene

Ben plain bearings for a turbo mesh shaft .stm 5 housing .η der We * e **

of the drawing, namely in Fig. 1 in the near ⁰ ^ fJ ⁰ ^ Jj ^ _{e kich} t either wäh-cross section and in F ig. 2 in longitudinal section along Man kam.aul_o «* c _d ^ _StHlslan .

derLinieII-HderFig. 1. Γ, let the game between the

In buckets fixed bearing housing I is a cylinder of the ^ ff * _"chalenseg elements 7 change-cylindrical bore! Forming two-piece Baute»! 3, ^{"We"% u "d} f ^ KShen speeds of the Welk the Teilflächerr3 has α, by Set dowel pins 4. in order to determine the position of the knitting

In the interior of the cylindrical bore 2 a ^wr * ^en \ is to be written. set angular position

RingS held, the several ZjJ *** JJ ^ _n ^d _one J _n halves of the component 3 on its inner surface

same direction eccentric to the bearing axis of the cylindrical ™ & χ5 suio ^ j _{with the} ends _dcnen having Gleitbahnen6 whose Manteiiinien parallel _iÄ ^ "^^" ^ S'ii cooperate extend to the bearing axis thereof. ™ Bewegungs? T _n protrude from the bearing housing.

Within the ring 5 are ', agerschalenseg- heads 22 above from αm ^ ^ _{dcr Ring5} mente7 are arranged, which pivot about tilting axes S J ^^ Sn component clamped and in turn, which in turn move radially to the bearing axis in ^α ^ ™ ^ " ¹ ^ ₅ Κι _1οη If the bearing spindle is slidable in radial slots 9 in the bearing housing in the position ^ ^e ^ ^{e first} _{hold the} clamping screws and move onto the slideways in the ring w, l1 loose _{| g dic} ^^ ^

support radially, for which they are provided with a view 10 21, then actuated ^^^ "^ of _the ringS. if ^ Vk? and then pulls the screws 21 again

The oil required to lubricate the bearing is placed on the right and angled

through a hole * 5 provided in the bearing housing to the ring 5

tion 11 supplied. This oil feed bore opens into ^^ "J ™; ^ _{can be} checked by bcieinem hydraulic pressure chamber 12, goes around the" P ^ S "^ pressure in oil film by means of a ring and from which the oil-in direction ^^ '^ J ^ bohrong, which in the Zechauf the shaft, not shown, is represented by radial of - D ™ ^ ™ * ^^ ⁸ This Dnickabnahmeborung 13 between or near the end dead 30 voltage is »^ of _{a sc} ,

the bearing shell segments »· Direction on the shaft g £ * £ j ^e ^ _n ^e _{throughj and a} channel 23 goes out radially. ' ^CII: **. _La " _er shell segment and through the

_{The RingS is through with a ring gear segment} 14, the bearing «* with cinem Langska -

which is in engagement with a worm 15 and is connected to the _axis 8, which is free to the outside, which in turn is firmly connected to the axis of the spindle 35 to the 24-inch pressure measuring device

with a threaded section 17 s.tzt, de using "^ '^ jj ¹ ^ _can also measure the oil temperature at a ^ J ^^ bearing protruding from the housing of the bearing or, better still, the square head 18 can be rotated. _f , _P TeniDeratur des Gleitmetall on the bearing shell

The pitches of the spindle thread 17 and that of the I ^ emperai «« _{d ines in the} segment of the worm 15 are different so that by 40 ^^^! SSSI Finally, the rotation of the spindle 16 can be the ring 5 over the worm ^ " _{by following the} training

drive IS, 14 can turn, wöbe, the tooth. 1 dungde rvmia ^ _{bearing shell} segments 7 can

¹ you can be in this way the ring 5 over his 45 also be three or more than four.

1 sheet of drawings

Claims (3)

1 2 hold the oil film that its elasticity and patent claims: damping properties - umer other parameters 1. Plain bearings for a turbo machine shaft with tern - directly from the game between the adjustable radial play, depend with several bearing shaft journals and the bearing shell, and shell segments, the radial displacement of which 5 can be shown that, for example, in a loading by sliding on just as many cylindrical runners, a notable change in this was made Is to cause slideways, the axes of which to the game the value of the critical speed of the second order Axis of the bearing bore parallel and eccentric changed by about 40 ° / o, are, characterized by a ring known (from German Patent 9342) (5), the eccentric-zy- io a plain bearing on its inner surface, the radial play of which should be adjustable has cylindrical slideways (6) and which has a plurality of bearing shell segments, rotatable in the cylindrical bore (2) one which by displacement in the circumferential direction and non-rotatable component (3) is mounted, also by sliding on just as many slideways, their axes a device (14 to 18) for rotating the parallel and eccentric to the axis of the bearing bore Ring, further by the tiltable support of 15 are to be moved radially inward; the Ver- Slide the bearing shell segments (7) on the slideways, the segments should be pushed in the circumferential direction of the ring by means of tilting axes (8) that happen between by that one of the segments of a the bearing shell segments and the ring parai- in it engaging worm in the circumferential direction IeI is arranged and shifted to the axis of the bearing bore and the other bearing shell on the two end faces of the bearing segments in w> lens segments. There are two difficulties radial slots (9) of the non-rotatable component: The first of these is, i.iG leads are, and finally through a device, the segments because they are in the circumferential direction of the device (19 to 22) for blocking the set segment that meshes with the screw Angular position of the ring. should be and for this purpose without scope 2. Gear for rotating the slide ways 25 must lie one next to the other, not at all radially Ring according to claim 1, marked * can be adjusted; the second difficult is characterized by a on the outer surface of the rin- ity that the segments on the eccentric-cylin ges (5) attached ring gear segment (14) and three sliding surfaces of the bearing housing directly, a worm (15) engaging in this, which is rotatably fixed in the namely with likewise eccentric-cylindrical FIj Component (3) housed and rest against 3 ° chen and therefore, if they are in the circumferential groove . Axial displacement is secured. were shifted, also an angular change. 3. Device for blocking the angular position namely changing the angle between a tandes Ring body according to claim 1, marked on the running surface of the shaft and in the glonet through the circumferential point in the upper part of the fixed bearing housing on the bearing surface (1) provided clamping screws (21) would experience tangent to the 35 shell segment Compression of the two halves of the rotatable and therefore unevenly adapted to the shaft, fixed component (3) and thus for clamping namely on the leading edge of the segment surface of the ring (5) between these halves. pressed more strongly than on the trailing edge