DE1441194A1 - Magnetically relieved bearing for standing waves, especially for the runner shaft of an electricity meter - Google Patents

Description

Magnetically relieved bearing for standing waves, especially for the rotor shaft of an electricity meter.

-'The invention relates to a magnetically relieved bearing as it is suitable, for example, for the runners of electricity meters. Such Bearings bring the Yorteil with it that the runner of the counter as a result of the low Bearing load is rotatable with ashr low frictional resistance. Such a one Friction-free storage of the meter shaft is a prerequisite for accurate consumption measurement. With the bearing designs that have been used on a trial basis up to now is the thrust bearing separated from the magnet assembly. By this separate arrangement however, there are structural disadvantages.

In addition, a bearing constructed in this way is not interchangeable with a normal unbalanced thrust bearing.

To remedy these disadvantages, the inventor has set himself the task of To create a magnetically relieved warehouse that saves space in its entire structure and is interchangeable with a normal unbalanced bearing.

The task mentioned is for a magnetically relieved bearing for standing waves, especially for the rotor shaft of an electricity meter according to the invention solved in that the thrust bearing and the entire magnet assembly e in a common Housing are housed. Through this union of pressure bearing and relief device you get a particularly compact construction.

It is also possible through the invention to design the camp in such a way that that it is interchangeable with an ordinary unbalanced thrust bearing.

In the drawing, two exemplary embodiments of the invention are shown. They show: FIG. 1 a bearing design with repelling ring magnets and FIG. 2 a bearing version with attracting ring magnets.

Storage and relief device are in a bell-shaped Housing 1 housed, the above a neck-shaped extension 2 with external thread 3 owns. The thrust bearing consists of a ball 4 that is held in the rotor and one that is fixed to the housing arranged bearing block 5. The relief device exists in the execution bite game 1 from a lower magnet 6 fixed to the housing and an upper one with the Magnets 7 connected to the rotor. Magnets 0 and 7 repel each other. The ball 4 of the pressure bearing and the rotating relief magnet 7 are both on a single piece body 8 which is pushed onto the rotor shaft 9. To attach the magnet 7, which can be glued, for example, is on Body 7 a flange 10 is provided.

The lower bearing block 5 and the magnet 6 fixed to the housing are in one common fit 11 held. The holder 11 is cylindrical on the outside and centered on the inner diameter of the bearing housing 1. The fit is like this chosen that the socket 11 is longitudinally displaceable in the centering. The lower The end of the bearing housing 1 is closed by a screw cap 12. Between the screw cap 12 and the socket 11 a helical compression spring 13 is provided, with its lower end in a recess 14 of the cap 12 and with its upper end The end is centered in a recess 15 of the socket 11. By the truck of the spring 13, the socket 11 is against a shoulder provided in the interior of the bearing housing 1 16 pressed. By this inventive fastening of the mount 11, the thrust bearing 4, 5 yield resiliently downwards. This is at z. B. during transport occurring Impact prevents the brittle bearing jewel 5 from cracking.

In the embodiment of FIG. 2, the thrust bearing 4 5 is through Mutually attractive magnets 17 and 18 relieved.

The magnet 18 fixed to the housing is on the inside of the bearing housing 1 attached, e.g. glued in place. The magnet 17, which rotates with the rotor, is seated a flange 19 of a sleeve 20 which is pushed onto the rotor shaft 9. To the The axial movement of the meter shaft is limited by a further flange on the sleeve 20 21 provided. The top of the flange 21 hits the housing before the rotor 9 has executed an impermissible large axial movement, i.e. before the Touch magnets 17 and 18.

The bearing block 5 is mounted in a mount 22. Version 22 is just like in the embodiment of FIG. 1 by a screw cap 12 and a compression spring 13 is pressed against a shoulder 16 of the housing 1. ~ The bearing housing 1 is designed in such a way that it takes the place of a normal, unbalanced thrust bearing can be used in a counter. For this purpose, the external thread 3 is particularly appropriate the external threads of the not. selected relieved thrust bearing.

2 Figures 9 claims

Claims (9)

Claims: 1. Magnetically relieved bearing for standing waves, in particular for the rotor shaft of the ointes electricity meter, characterized in that, that the thrust bearing (4, 5) and the entire magnet assembly (6, 7; 17, 18) in one common housing (1) are housed. 2. Bearing according to claim 1, characterized in that the housing (1) is bell-shaped and has an upper neck-shaped extension (2) in the counting frame can be screwed in or inserted. 3. Bearing according to claim 1 and 2, characterized in that when used repelling magnets (6, 7) the lower magnet (6) and the one that absorbs the axial pressure Bearing block (5) are stored in a common socket (11). 4. Bearing according to claim 1 and 2, characterized in that when used attracting magnets (17, 18) the ball (4) connected to the runner (9, 20) the thrust bearing (4, 5) and the lower ring magnet (17) connected to the rotor an integral part (20) connected to the rotor shaft (9) (magnet carrier) is held. 5. Bearing according to claim 4, characterized in that the with the Runner (9, 20) connected ring magnet (18) on the top of a magnet carrier (20) provided flange (19) rests. 6. Bearing according to claim 4 and 5, characterized in that the MagnettrWger a flange (21) serving as a stop is provided, which is inside the bearing housing (1) strikes before the Länfer (9, 20) executes impermissibly large axial movements Has. 7. Bearing according to claim 3 to 6, characterized in that the socket (11) according to claim 3 or a socket (22) receiving the lower bearing block (5) in the embodiment according to claim 4 on one in the interior of the bell-shaped bearing housing (1) provided shoulder (16) rests. 8. Bearing according to claim 7i, characterized in that the lower opening of the bell-shaped bearing housing (1) covered by a screw cap (11, 22) is, wherein a on the cap (12) and the socket (11, 22) is supported compression spring (13) presses the mount (11, 22) centered with a sliding fit against the shoulder (16). 9. Bearing according to claim 8, characterized in that the compression spring daA e one preferably in depressions (14, 15) of the screw cap (12) and the socket (11, 22) is centered coil spring (13).