CH643361A5 - Bearing arrangement of the rotor shaft of an electricity meter - Google Patents

Description

643 361 2nd

Claims (1)

PATENT CLAIM to improve the bearing arrangement mentioned in such a way that Bearing arrangement of the rotor shaft of a circuit of axial vibrations of the rotor shaft, the reilers with a ball bearing at the top and a needle bearing are reduced to a minimum. This is achieved by the fact that the magnet arrangement is located at the lower end of the rotor shaft and the ball bearing acts on the magnet arrangement indicates that the magnet arrangement is located at the lower magnetized lower and a rotor shaft end (lb) that is also magnetized in the form of a ring and consists of an upper magnet that is magnetized in the measuring mechanism with the same polarity and is attached to the lower carrier (5) in a ring-shaped magnetized bottom end of the rotor shaft ( 15) and one that is also provided with an annular magnet 10 The invention is explained in more detail with reference to the drawing, using an embodiment of the same polarity provided on the lower rotor shaft. end attached top magnet (11). The rotor shaft 1 shown is provided at its upper end with a gating 2, which is a bearing for a load gerkugel 3 forms. The counter bearing for the ball is through 15 a sleeve 4 is formed, which is displaceably arranged in a bushing 6. The invention relates to the bearing arrangement of the rotor. The socket 6 is fastened in a measuring element carrier 5 with the shaft of an electricity meter with a ball bearing at the top using a screw 7 . The sleeve 4 is under tangles and a needle bearing at the lower end of the shaft and a kung a spring 8, which on the other hand rests on a termination on the rotor shaft to reduce friction forces in screw 9, which is screwed into the bushing 6. Magnet 2o acting in the axial direction on the ball bearing By the spring 8, the sleeve 4 is held against arrangement with a collar 4a. a projecting edge 6a of the socket 6 is pressed. At the Such an arrangement is known, for example, from the lower end lb of the rotor shaft is a bearing bushing 10 in British Patent 580,896. The ring end of the rotor shaft together with a magnet in the measuring mechanism is concentrically magnetized and forms a double bearing with the threaded nipple. The 25 'm inside a south pole and on the outer edge a north rotor shaft is carried by a magnet that is on the pole. In the bearing bush 10 engages a guide needle 12, threaded nipple is arranged. The magnet acts on a soft-iron disk, which in turn is seated in a lower bearing body 13 at the top end of the rotor shaft, and acts in a bushing 14 arranged in the measuring mechanism carrier 5, which is held by the magnet through the bearing ball of the stone bearing. On the socket 14 sits another ring-shaped-is kept at a distance. The lower end of the rotor shaft 30 8 magnet 15, which acts in the same way as the magnet 11 with a guide needle in a lower bearing bush, which is magnetized, i.e. forms a south pole on the inside and is also attached to the measuring mechanism carrier on the outside in a height-adjustable manner. edge has a north pole. Both magnets repel each other, so that an air gap 16 is created between them due to the weight of the rotor - although axial displacement of the rotor shaft is largely due to the rotor shaft Forces 35 are shifted far upwards so that they are not reduced below a certain level because of the additional force exerted on the rotor shaft. For the operation of the electricity meter, the magnetic suspension of the rotor shaft would otherwise be slightly damaged. ben, so that a reduction in the air gap 16 by a few In an arrangement with a magnetic sub-bearing, hundredths of a millimeter occur. The force exerted on the upper rotor according to US Pat. No. 2,254,698, which also acts on the upper rotor, is relatively small and allows a magnetic arrangement for centering the shaft, which is why plastics can even be used as the bearing body shaft , the frictional forces are on a per avoiding lubricants. Reduced when using minimum since only the lower end of the shaft of corundum bearing blocks has a low load. The spring 8 is designed in such a way that axial vibrations are noticeable in the running properties 45 that no vibrations in axial shafts can impair it during normal operation. direction can occur. The spring serves only as a The invention is based on the task of initially shock absorbers during transport. C 1 sheet of drawings