DE1043007B - Elastic journal bearing for precision mechanical purposes - Google Patents

Description

Elastic journal bearings for precision mechanical purposes They are elastic Trunnion bearings for precision mechanical purposes have become known, which allow the capstone without removing the spring. Besides that With these bearings it is not possible to remove the perforated stone without removing the spring they had the added disadvantage that it was for the common watchmaker Without special instruction it was not possible to use the correct direction of rotation for installation or to recognize the expansion of the capstone. If the direction of rotation was mixed up, it existed the danger that the spring will take part in the rotary movement of the capstone, which occurs during installation could either lead to a tilting of the spring, namely if the unwanted Feather twisting was such that the ears of the feather were partially in the field the recesses, the bearing body arrive, or if the twisting of the spring It took place over 90 ° that the spring comes loose from the bearing body. When the expansion existed for the same reasons, there is also the risk of the spring coming off unintentionally. In addition, the construction of this known journal bearing was complicated.

It was also known that non-round capstones were used for non-elastic bearings Provide.-The aim of the invention was to create such an elastic journal bearing of simple construction, in which not only the disadvantages mentioned can be fixed, but also the perforated stone can be removed without the spring would have to be removed.

The journal bearing according to the invention is characterized in that the Capstone has at least two projections, one corresponding to the number of projections Number of ears of the rotatable formed by a slotted elastic ring inside the annular groove of the bearing body held spring inside protrudes so that by twisting the spring the ears either on the projections or can be brought between the projections to expand the capstone without having to remove the spring beforehand.

The drawing shows two exemplary embodiments of the subject matter of the invention shown, namely Fig. 1 shows a cross section through a first embodiment, FIG. 2 shows a plan view of a bearing according to FIG. 1, FIG. 3 shows a perspective view the spring of the same embodiment,.

4 shows a cross-section through a second embodiment and FIG. 5 shows a plan view of a bearing according to FIG. 4. What the embodiments according to FIG. 1 to 3 is concerned, it is a shockproof bearing for the pin Balance shaft of a clockwork. The camp has a bearing body 1, which is through the Rücker plate is formed. This bearing body 1 has a first recess 2 of partially conical and partially cylindrical shape on which the receptacle the perforated stone is used, which is housed movably within said recess 2 is.

A second recess 4 of larger diameter than the first recess 2 is used to accommodate the round, pressed into a metallic holder 6 Capstone 5. The socket 6 is made of a circular ring on the outer surface three symmetrical flats 7 are provided so that between this flat Projections 8 of the socket 6 are formed.

As can be seen from FIG. 2, the vertical projection corresponds to the recess 4 of those of the version 6, so that this last together with its projections 8, against Rotation secured, is held within the socket.

The perforated stone 3 and the cap stone 5 together with the version 6 are in the relevant recess held by the spring shown in FIG. This feather consists from a slotted, elastic ring 9 with three inwardly pointing stiff Ears 10. The tongue is inserted into an annular groove 11 of the bearing body 1, which is easily possible due to the slitting of the ring.

The groove 11 is higher than the thickness of the ring part 9 of the spring, so that this last one can twist within the groove 11. As can be seen from Fig. 2, the ears 10 are evenly distributed on the inside of the ring 9, with her Angular distance corresponds to that of the projections 8 of the socket 6, so that the ring can be twisted so that each ear comes to rest on a protrusion. so the version 6 as well as the perforated stone 3 and the cap stone 5 in the axial direction within to keep the recess in question.

This position is shown with a solid line in Fig. 2, where the two stones 3 and 5 as well as the setting 6 are held elastically within the relevant recesses, the elasticity of the mounting not coming from the ears 10 , which are stiff, but from the annular part 9 of the spring, which is subjected to torsion within the groove 11.

If the spring is rotated from the locking position shown in FIG. 2 off by 60 ° in one sense or the other, the ears get into the dash-dotted line in Figure 2 Released position shown, where the projections 8 are opposite the flats 7 are located, so that the version 6 together with the cap stone 5 sotvie the perforated stone 3 easily can be removed from the bearing body 1.

As can be seen from the structural design described, the Spring according to FIG. 3, once inserted, intended to be used remain, as it is not necessary to remove them to open the camp.

The side edges 12 of the ears 10 are slightly bent upwards, so as to facilitate sliding onto the 'projections of the socket 6.

To prevent unwanted twisting of the spring from the '' locking position To prevent it, it would be easily possible to create depressions on the top of the Provide projections 8, in tvelche in the locked position, the ears 10 enter would, and so only by overcoming a certain resistance from these depressions could exit again.

The bearing according to the second embodiment (Fig. 5) also has a bearing body l a. This is cylindrical and has a shoulder 13 of larger diameter, which is intended to be pressed into a corresponding bore in the base plate or a bridge of a clockwork or other device. The approach 13 does not extend over the height of the entire bearing body 1 a. so that the upper part 14, from which the groove 11a is milled, is not exposed to any radial pressure when it is pressed in.

A perforated brick 3a is permanent in a central opening 15 of the bearing body 1 a pressed in, and a cap stone 16 is in a recess 17 of the bearing body 1a. inserted. As can be seen from Fig. 5, the capstone 16 has two of each other opposite flats 18, the intermediate circular segment-shaped Parts form projections 19. As in the first embodiment, the shape of the recess is 17 chosen so that it corresponds to that of the capstone 16, so that the-, he Do not twist within this recess. The spring 20 corresponds to that the first embodiment with the difference that they only have two opposite one another Has ears 21 which are intended to the capstone 16 axially within the To keep bearing body 1 as soon as these ears are over the projections 19, such as this is shown in Fig. 5 with a full line. Otherwise, the spring 20 is also held within a groove 11 a of the bearing body 1 a. If the spring 20 in one or other direction of rotation from the locking position shown with a full line in Fig. 5 twisted out, the ears 21 get into the one shown in phantom in Figure 5 Release position in which the cap stone 16 is removed from the bearing body 1 a can be.

The side edges 22 of the ears 21 are also here bent upwards, in order to make it easier for the ears 21 to slide onto the projections 19.

It goes without saying that the perforated stone as well as the capstone can also be made of metal. Furthermore, the spring and the capstone or its socket has more than two or three ears or protrusions. These protrusions can also be designed differently, provided that the ears go through simple twisting of the tongue within the groove of the bearing body either as desired can be brought onto these projections or between these projections. In the first Case, the locking position, are the capstone and possibly also the perforated stone secured in its axial position, while in the second case, the release position, at least the capstone is removable. To prevent the capstone can rotate within the bearing body, it is sufficient, for example, on the bearing body to provide a projection, which with two adjacent projections of the capstone or its setting works together.

Claims (6)

PATENT CLAIMS: 1. Elastic journal bearing for precision mechanical purposes, characterized in that the cap stone (5, 6, 16) has at least two projections (8, 19), with a number of ears (10, 21) formed by a slotted elastic ring (9), rotatable within the annular groove (11, 11a) of the bearing body (1, l a) held. feather protrude inward, so that by twisting the spring the ears (10, 21) either can be brought onto the projections (8, 19) or between the projections, to allow the capstone to be removed without first having to remove the spring needs. 2. Bearing according to claim 1, characterized in that the projections (8, 19) through flattened areas (7, 18) on the cylinder jacket-shaped outside of the cap stone (5, 6, 16). 3. Bearing according to claim 2, characterized in that that the cap stone (5) is pressed into a metallic cap stone frame (6) whose Has the outside of said projections (8). 4. Bearing according to claim 1, characterized characterized in that the bearing body (1, l a) has a recess in the shape of the cap stone (5, 16) or the cap stone frame (6) with the projections (8, 19). 5. Bearing according to Claim 1, characterized in that the side edges (12, 22) of the Ears (10, 21) on the spring ring (9) are bent upwards in order to slide open the ears (10, 21) on the projections (8, 19) to facilitate. 6. Bearing according to claim 5, characterized by depressions in the upper side of the protruding rings (8, 19) which serve as notches for the ears (10, 21). Documents considered: German Patent No. 832 579; Swiss Patent No. 287 283; French patent specification No. 1063 489.