DE1441194B2 - Thrust bearing for the rotor shaft of an electricity meter - Google Patents

Description

In most electricity meters, the rotor consists of a horizontal armature disk on one vertical rotor shaft. The rotor shaft stands on a thrust bearing, the individual parts of which are usually are held together by a housing of the thrust bearing. To such a thrust bearing occasionally To be able to replace, the thrust bearing is set up in many meters so that it is together with its housing can be removed from the support frame of the meter. Most of the time, the housing is the Thrust bearing with a screw thread attached to the support frame of the meter, so that the thrust bearing is easily and quickly exchangeable without having to disassemble other parts of the meter need to become.

The pressure of the lower end of the rotor shaft on the thrust bearing causes friction losses. It is known that these frictional losses can be reduced by arranging a magnet on the rotor shaft attached, which partially compensates for the weight of the runner. Such magnet arrangements are known in many embodiments. They essentially consist of a fixed one Magnetic part and a movable magnetic part, the movable magnetic part being attached to the rotor shaft is. It is known to have such magnet arrangements either in the vicinity of the lower bearing of the rotor shaft to be attached or in the vicinity of the upper bearing of the rotor shaft or on any Position between the lower and the upper bearing of the rotor shaft.

If it is desired, a thrust bearing, whose pressure in the manner described above by means of a Magnet arrangement is reduced, occasionally to be replaced by an ordinary thrust bearing that does not have a magnet arrangement for pressure reduction, the replacement of the thrust bearing is in In this case no longer easy, because in this case, in addition to the thrust bearing, the magnet arrangement must also get extended. Removing the magnet assembly always requires removing the entire rotor, because the moving part of the magnet assembly is attached to the rotor. task the invention is to find a solution which also avoids these difficulties.

The invention achieves such a solution using a combination more known per se Individual features in a surprisingly simple way: A thrust bearing for the lower end of the Rotor shaft of an electricity meter with magnetic bearing relief, which consists of a stationary and a movable magnet part attached to the rotor shaft is according to the invention characterized in that in a combination in which the thrust bearing and the fixed magnetic part enclosed in a known manner by a housing and together with this from the Support frame of the meter is removable and in which the movable magnetic part from one to the Magnet carrier attached to the lower end of the rotor shaft is carried, the magnet carrier so loosely on the Rotor shaft is attached and both the fixed magnet arrangement and the movable one Magnet assembly and the thrust bearing are arranged in the common housing that the housing together with the two magnet arrangements and the thrust bearing from the support frame of the meter is removable. When such a thrust bearing is occasionally replaced by an ordinary thrust bearing is to be, which does not have a magnet arrangement for pressure reduction, so it is only required to remove the thrust bearing including its housing from the support frame of the meter, for example unscrew, because removing the thrust bearing housing is inevitable also withdrawn the magnet carrier of the rotor shaft, so that together with the thrust bearing at the same time

ίο also the entire magnet arrangement from the meter can be removed. It is no longer necessary to remove and replace the rotor, nor is it necessary to disassemble any other parts of the meter.

In addition, the invention can often be of use in such cases, if vice versa ordinary thrust bearing, which does not have a magnet arrangement for pressure reduction, against a Thrust bearing is to be replaced according to the invention. When the ordinary thrust bearing in known, customary manner on the lower end of the rotor shaft a support body for the upper bearing block of the thrust bearing is attached, it will in many cases be possible to remove such a thrust bearing from the Remove the rotor shaft and instead attach a thrust bearing according to the invention to the rotor shaft. In this way, an electricity meter that does not have a magnet arrangement for pressure reduction of the thrust bearing, in many cases in a very simple manner afterwards with a Magnet assembly are provided to reduce pressure.

Two exemplary embodiments of the invention are shown in the drawing. It shows

F i g. 1 a bearing design with repelling ring magnets and

F i g. 2 a bearing version with attracting ring magnets.

Storage and relief device are housed in a bell-shaped housing 1, the has a neck-shaped extension 2 with an external thread 3 at the top. The thrust bearing consists of one Ball 4 held in the runner and a bearing block 5 fixed to the housing. The relief device exists in the embodiment according to FIG. 1 from a lower magnet 6 fixed to the housing and an upper magnet connected to the rotor 7. The magnet 7 is carried by a magnet carrier 8, which is placed on the rotor shaft 9. is stuck. The magnets 6 and 7 repel each other. The ball 4 of the thrust bearing is also held by the magnet carrier 8. For fastening the magnet 7, which can be glued on, for example can, the magnet body 8 is provided with a flange 10.

The lower bearing block 5 and the magnet 6 fixed to the housing are held in a common socket 11. The holder 11 is cylindrical on the outside and on the inside diameter of the bearing housing 1 centered. The fit is chosen so that the socket 11 is longitudinally displaceable in the centering. The lower 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, which with her lower end in a recess 14 of the cap 12 and with its upper end in a recess 15 the version 11 is centered. Due to the pressure of the

Spring 13, the holder 11 is pressed against a shoulder 16 provided in the interior of the bearing housing 1. By this inventive fastening of the mount 11, the thrust bearing 4, 5 can be resilient give in to the bottom. This is at z. B. occurring during transport bursting of the brittle bearing stone S prevented.

In the embodiment according to FIG. 2 is the thrust bearing 4.5 by 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. B. glued. The magnet 17 rotating with the rotor is seated on a flange 19 of a Sleeve 20 which is pushed onto the rotor shaft 9. To limit the axial movement of the counter shaft a further flange 21 is provided on the sleeve 20. The top of the flange 21 strikes Housing before the rotor 9 has executed an impermissible large axial movement, so also before the magnets 17 and 18 touch each other.

The bearing block 5 is mounted in a mount 22. The socket 22 is the same as in the exemplary embodiment according to FIG. 1 by a screw cap 12 and a compression spring 13 against a shoulder 16 of the bearing housing 1 pressed.

The bearing housing 1 is designed so that it takes the place of an ordinary unbalanced thrust bearing can be used in a counter. For this purpose, the external thread 3 is in particular according to the External threads of the unbalanced thrust bearing selected.

Claims (6)

Patent claims: 1. Thrust bearing for the lower end of the rotor shaft of an electricity meter with magnetic Bearing relief consisting of a fixed and a movable one attached to the rotor shaft Magnet part consists, characterized in that in a combination in which the thrust bearing and the fixed magnetic part enclosed in a known manner by a housing and can be removed together with this from the support frame of the meter and in which the movable magnetic part (7; 17) of a magnet carrier (8; 20) attached to the lower end of the rotor shaft is, the magnet carrier (8; 20) is so loosely attached to the rotor shaft and both the stationary Magnet arrangement (6,11; 18) as well as the movable magnet arrangement (8, 7; 17, 20) and the thrust bearing (4, 5) are arranged in the common housing (1) that the Housing together with the two magnet assemblies and the thrust bearing from the support frame of the meter is removable. 2. Bearing according to claim 1, characterized in that the housing (1) is bell-shaped is formed and can be screwed into the counting frame with an upper neck-shaped extension (2) or is pluggable. 3. Bearing according to claim 1 and 2, characterized in that when using a magnet arrangement with repelling magnets (6,7) the lower magnet (6) and an axial pressure receiving jewel (5) are held by a common socket (11) (Fig. 1). 4. Bearing according to claim 1 and 2, characterized in that when using a magnet arrangement with attracting magnets (17, 18) a bearing ball (4) of the thrust bearing (4, 5) and the lower magnet (17) connected to the rotor shaft (9) from a one-piece, with the rotor shaft (9) connected to the magnet carrier (20) are held (Fig. 2). 5. Bearing according to claim 4, characterized in that the lower one with the rotor shaft (9) connected magnet (17) on the top of a flange provided on the magnet carrier (20) (19) rests (Fig. 2). 6. Bearing according to claim 4 and 5, characterized in that the magnet carrier (20) as a End stop serving flange (21) is provided on the inside of the bearing housing (1) strikes before the rotor shaft (9) has executed impermissibly large axial movements (Fig. 2). 1 sheet of drawings