DE1818292U - SPRING-ON AXLE BEARING. - Google Patents

Description

Utility model Rheinfelder Uhrteile-Fabrik RUF A G. m. B. H.

R h e i n f e l d e n / Baden G A c h s s p i t z e n l a g e r Das Utility model relates to a spring-loaded top axle bearing for electrical or precision engineering Measuring and control devices. Such tip bearings are in different designs known, but they have certain defects caused by the utility model are fixed.

According to the innovation is a cylindrical bearing block with its flat Front surface on a flat surface of the bearing body corresponding to its diameter set and within a ten degrees less than its circumference Hollow cone held by a spring acting on its rear surface. The normal one cylindrical bearing block is cheaper than other shapes. The arrangement described prevents climbing in the event of an impact on the bearing . ' of the jewels on the hollow cone and limited its pivoting movement in such a way that an all too strong Tensioning of the spring and a spring pressure which could damage the tip of the axle are avoided.

In the middle of the rear surface of the bearing block, one is placed under it Effect of a wire coil spring standing pressure plate with the tip of a front Truncated cone. As a result, the pivoting movements of the bearing block are opposite the pressure plate and the spring as squat as possible and thereby again the Spring pressure on the axle tip reduced.

The wire coil spring sits with its front end gear on one extremely thin outer ring of the pressure plate around one of its inner diameter corresponding full truncated cone of the same and with its rear end passage in one their outer diameter corresponding hollow cone of a rear abutment, wherein the outer cylindrical shoulder ring of the abutment in the hollow cone Hollow cylinder of the bearing body is performed. The features mentioned enable one long design and correspondingly softer nature of the spring and also because of it again extensive protection of the axis tip, as well as an exactly axial guidance the spring in the bearing body when working the bearing and when assembling it.

The spring abutment is formed by a circular bolt, the one at the rear end of the bearing body in its inner circumference provided Milling axially and insertable into a subsequent annular groove by turning and thereby held against the spring pressure and releasable.

The abutment forming the bolt has a central bore Insertion of a steeply tapered pin under static friction, which makes handling of the bolt facilitated when inserting and removing. Through the design the spring abutment as a detachable latch is easy to open. and closing of the tip bearing and the frequent cleaning of the same and its service life much longer.

The drawing shows an exemplary embodiment of the subject matter of the invention shown in two figures.

They show: Fig. 1 the top bearing in axial section, Fig. 2 the same in plan view of its rear end.

The top axle bearing is in a hollow cylindrical bearing body 1 housed, which has a continuous external thread 2 for adjustable screwing in a part of the device to be provided with the bearing. In a floor 3 at the front end of the bearing body 1, a bore 4 is provided through which the axis 5 to be supported enters with its conical tip 6. To accommodate the Tip 6 is a hollow cone 7 in the front of an externally cylindrical shape Bearing block 8 according to DIN standard 43 803. The same lies with its front, flat Ring surface 9 on the inner soap, also flat, the diameter of the bearing block 8 corresponding annular surface 10 of the bottom 3. In the field of Height of the bearing block 8, the bearing body 1 has a relative to the circumference of the former hollow cone 11 inclined to the outside by about ten degrees. Behind it has the bearing body 1 a hole 12 corresponding to the largest diameter of the hollow cone 11. The bearing block 8 is acted on its rear side by a compression spring on the bottom ring surface 10 pressed through the lower part of the hollow cone corresponding to its diameter 11 held against lateral displacement and by the steep shape of the hollow cone 11 prevented from sliding on the same.

The bearing block 8 can therefore swing out to the side by a maximum of ten degrees, about which the hollow cone 11 is inclined with respect to the cylindrical bearing block circumference is. Due to all the measures described, the bearing block swings out too much 8, too much tension on its return spring and one from excessive back pressure the same on the axle tip 6 prevents possible damage to the same.

In the middle of the flat rear surface 13 of the bearing block 8 is seated a pressure plate 14 with the tip 15 of a truncated cone 16 on the front side. This arrangement causes the pivoting movement of the bearing block 8 onto the pressure plate 14 and on the compression spring 17 sitting behind the same and also as a result Overstretching of the spring 17 is avoided and the axle tip 6 is spared.

A wire coil spring is used as the return spring 17. The same sits with its front end passage 17 'on a thinly twisted outer one Ring 18 and on a full truncated cone 19 corresponding to its inner diameter Pressure plate 14. With its rear end gear 17 ″, the spring 17 is seated in a hollow cone 20 an abutment plate 21 fixed in the rear part of the bearing body 1., wherein whose front shoulder ring 22 having the hollow cone 20 with its cylindrical The outer circumference 23 is guided in the cylindrical bore 12 of the bearing body 1. Around the length of the engagement of the spring 17 with the cones 19 or 20 of the pressure plate 14 or abutment plate 21, die'Feder 17 is designed longer and has a softer texture, which also helps to protect the axle tip 6.

The abutment plate 21 is designed as a releasable bolt. In addition it has two lugs 24 on its circular circumference and the bearing body 1 has two Projections 25 and an inner circumferential annular groove 26 extending therefrom. The abutment plate 21 is with the lugs 24 in the axial direction in the projections 25 and then inserted by turning into the annular groove 26 and opposite in the same the pressure of the spring 17 held.

The abutment plate 21 has a central bore 27. Same is used to insert a steeply tapered handle pin 28. Will be the same up to introduced into the bore 27 to achieve static friction, so that the Abutment plate 21 easily released from the lock or brought into the same will.

Claims (5)

S c h u t z a n s p r ü c h e: 1. Spring-loaded top axle bearing for electrical or precision mechanical measuring and control devices and the like, characterized in that that a cylindrical bearing block (8) with its flat front surface (9) on a its diameter corresponding to flat surface (10) of the bearing body (1) set and within a hollow cone which is inclined by about ten degrees in relation to its circumference (11) is held by a spring acting on its rear surface (13). 2. Axle top bearing according to claim 1, characterized in that on the center of the rear surface (13) of the bearing block (8) one under the action of a compression spring standing pressure plate (14) with the tip (15) of a truncated cone on the front side (16) sits. 3. Axle top bearing according to claim 1 and 2, characterized in that that the wire coil spring (17) with its front end gear (17 ') on an extremely thin outer ring (18) of the pressure plate (14) and a rear, their inner diameter corresponding full cone (19) and with their rear end passage (17 ") in a hollow cone (20) corresponding to its outer diameter in a rearward Abutment plate (21) is seated, the front side having the hollow cone (20) Attachment ring (22) of the abutment plate (21) with its cylindrical outer circumference (23) is guided in the bore (12) of the bearing body. 4. Axle tip bearing according to claim 1 to 3, characterized in that that the abutment plate (21) as a bolt on its outer circumference lugs (24) and the Bearing body (1) at the rear end of its bore (12) cutouts (25) and one of this outgoing inner circumferential annular groove (26) in which the abutment plate (21) can be introduced via the milled recesses (25) after their projections (24) have been axially inserted are. 5. Axle top bearing according to claim 1 to 4, characterized in that that the abutment plate (21) has a central 'bore (27) for introducing a steep-tapered Has handling pin (28) under static friction.