DE1775763A1 - Radial plain bearings - Google Patents

Description

Radial plain bearings The invention relates to a. Radial plain bearings with a stationary and a rotating bearing part and with at least a Geerinde serving to promote anti-insect agents.

A dei: -like plain bearing is known from the German Patenig-Ehrift 863 730 shoah. The Ilte camp shown here has certain disadvantages. For dea Ic) lchmie «.mittelumlauf a standing outside the bearing is used;) j.Nuokpumpee, Furthermore, the thread cut on the pin is only flattened by the lubricant pressure on oil wedge formation. and a narrow cylindrical bearing support surface # whereas there is no pressure in the thread. This does not inevitably reduce the supporting surface.

The object of the invention is, however, a bearing ago;! "- Listel.len, at the. the journal of the shaft at the specified operating speed and the specified Bearing load ritlichot only with fluid friction and as concentric as possible in the bearing turns and the described Nachtetle are vermj'eden also in the thread eJ.uen to generate medium pressure. According to the invention, this is dadure ', L ensures that at least one thread is catchy u - ii eie: i be on with this one Conveying end of a pressure chamber anscb.i.Leasst, whereby the rotating bearing part only in a B.io ': exercise is effective.

An example according to the invention is shown in the drawing.

It shows: Fig. 1 a bearing for ei -.:. Wel: Ler # 3ndä with one from the printing room to the. Spe2r * .: i:, - 3winde leading lubricant. ', Iimlauf, im, Sch-a.Ittl Fig. 2 daoselba lagerg but not one. Annular space in the bearing housing lens r., Ixi heat influence of the Lagi:? E, Fig. 3 a bearing for a double-sided bending shaft with two opposing threads, and a common pressure chamber in the same type of representation as in Fig. 1 and 29 Fig. a bearing for a durobheinde shaft, as in Fig. 39, but inilt another, lubricant act.-j.iil running from the .9 ":) peqrgewinde-Ende starting from the beginning of this locking, thread a.- In a bearing housing 1 is mounted a shaft 3, a pin 2. the bearing housing 1 is located in an only indicated bearing block 4. It is rotating here and in every position festetellbar. a in a sliding surface of Lagerge -häusea 1 incised catchy Plachgewinde 5 promotes lubricant into a pressure chamber 6, as soon as the shaft 3 rotates in the direction of the arrow shown.

A fill line 17 that can be shut off is provided for filling the bearing with lubricant. A Entlüftungssehraube 7 can thereby escape the lubricant in the pressure chamber 6 and in the corridors of the flat thread 5 air still present even before commissioning of the shaft 3 connected-Müschine during filling.

From the pressure chamber 6 branches a conduit 8 leading to a ABP before Plachgewinde 5 - seen in its direction of conveyance - arranged locking thread 11 leads. This locking thread is cut on the shaft 3 and prevents the lubricant from escaping from the bearing in a manner known per se during the running or shaft. It would also be possible to lead this line 8 to the beginning of the flat thread 5 in an antechamber 16 provided there. In this case, the pre-pressure achieved by the locking thread 11 in the anteroom 16 is dispensed with.

An adjustable throttle 9 and a heat exchanger 10 are installed in the line 8. An additional seal 13 , which can be influenced in a manner known per se. Pressure or centrifugal force, prevents lubricant from escaping when the level is low.

A further embodiment is shown in FIG. 29, which differs from the first in that there is an annular space 15 in the bearing housing 1 through which the lubricant flows before it reaches the locking thread 11 . In addition, the locking thread 11 in this example is cut into the bearing housing 1 . However, it would also be possible here without further ado to cut the locking thread 11 onto the shaft 3 , as FIG. 1 shows.

3 shows a bearing for a through shaft, in which the pressure rail 6 in the bearing housing 1 lies between two single-thread flat threads 5a and 5b . The conveying direction of these two flat threads is opposite to each other the pressure chamber 6. From this pressure chamber 6 , a line 8 leads via the throttle 9 and the heat exchanger 10 into the annular chamber 15, which allows the lubricant to flow to the respective locking thread 11 11 to the shaft 3. It would also be possible to lead the line 8a into the vestibule 16 .

In the embodiment according to Nig. 4, the line 8 a branches off from the end of the locking thread 11 and leads via a valve 12 and the heat exchanger 10 into the common annular space 15 to the locking threads 11.

If the shaft now rotates in the direction indicated by the arrow, the lubricant is conveyed through the flat thread 5 to the pressure chamber 6. A pressure builds up in this pressure space as well as on the sliding surface between the anteroom. 16 and the pressure # room 6, the pressure along the passage and along the dam of the flat thread 5 helically from the vestibule 16 in the conveying direction otetig .. # - increases. This pressure in the flat thread 5 acts on the pin 2 against the bearing load acting from the outside and separates the rotating pin from the flat thread 59 so that only liquid friction now takes place. The desired con -: -.- centric according to the pin 2 in the flat thread 5 is achieved when the pressure force generated corresponds to the bearing load. An additional adaptation of the bearing to the bearing load is also possible through a suitable selection of the lubricant with a different viscosity.

If the speed or the temperature changes, the pressure in the pressure chamber 6 and in the flat thread 5, the balance between bearing and pressure force must be restored by changing the passage cross-section in the throttle 9 . Even if the bearing load changes, the equilibrium between the pressure and the pressure force can be restored by changing the flow cross-section in the throttle 9 .

A favorable storage temperature is achieved by the heat exchanger 10 .

By correspondingly turning the bearing housing 1 in the bearing block 4, the compressive force can also be adjusted so that it counteracts the bearing load exactly.

Claims (1)

2 atenta -aap r ü o 2 o Radial plain bearing with a stilling rmd one itself rotating: G & gteil Lmd with min & tens tirem to: Pörderune: von Beb.mie: o.miittel serving Gewint-ig daditrc-lt gek,. # mii "eich-aet, that with.destüns a G (nfirzde (595apr, - * 4) eirigii4; ig i-it and be guided by his sponsor. Iiitakrwun (6) anneblJeßg where the rotating lmgcrtigi2. nu: -? in a Direction of rotation effective sex is & Radial lead bearing -leAureli gekenn eit.-h-aet that mii-.les bens an Nt biL. 5b) also the Gleitr.ädh-3 eineald 'an -etidnei ik'i. Radial plain bearings according to 'h 2 dadut4 # b 4: elcemi-i-, eit "-huett that # in Irct Aem Geninde f.5tr) a95b) a tracer thread (11) livm66 go jet. Radial; guide bearing according to claim is characterized by Go, dab dav- La.ger with a one WäjmeaustE.ut-olior (10) and a Dz? oss31 (9) receiving Ioeitmg (egg) In connection stands. 5. Radial friction bearing according to claim 4t characterized in that DIAE line (8) from Druakraum (6 the beginning of the (.. Performs ewindes (595a.5b) 6. Radial friction bearing according to claim 4, characterized in 'that the line (8) of the pressure chamber (6) leads to the locking thread. 7. Radial plain bearing according to claim 4 .. # characterized in that the line (8a) starts from the conveyor'et "of the locking threada (11) and leads this Sp (rrgewindea. 8) to the beginning . radial plain bearing according to one of the preceding claims, characterized in that for sealing against gekenn.zeiähnetg Schmiermittelaustrittg particularly in a Wellenstillstanclg influenced in ihrerr., BerUhrumgedichtung effect (13) is -vorgesehen.