DE19924735A1 - Series of electric motors with revolution rate feedback, has resolver connected to motor shaft with spreading shaft, and motor shafts of motors of different size within model range have same bores - Google Patents

Abstract

The series of motors has revolution rate feedback, an angular position sensor attached to the motor shaft and a range of different sizes. The angular position sensor is a resolver, the motor shaft has a bore and the resolver (21) is connected to the motor shaft with a spreading shaft (22). The motor shafts of motors of at least two sizes within a model range of different sizes have the same bores. An Independent claim is also included for an electric motor with revolution rate feedback

Description

The invention relates to a series of electric motors with speed feedback and one Electric motor with speed feedback.

Electric motors with speed feedback and series for this are from the catalog 'Price catalog geared motors' from SEW-EURODRIVE GmbH & Co from 1999, in particular on page 595ff, from the 'SEW Encoder Systems' manual, edition 07/98 and from the website http://www.sew-eurodrive.de/german/frame_d.htm 'technical documentation, Motors and transmissions' known.

Incremental encoders, absolute encoders or resolvers are used for speed feedback.

Incremental encoders are sensitive detectors for determining the relative angular position of the Motor shaft, since a rotating part with encoder flags, in particular holes or the like, and a stationary part with sensors, such as light barriers or the like, very precisely relative have to be positioned to each other and in case of jerking movements, i.e. fast Angular accelerations and angular speeds, the evaluation electronics can be overloaded. There the incremental encoder when rotating the motor shaft by a small value, for example 360 ° / 1024, each gives a pulse, is only a determination of the relative angular position or Angular position can be changed. However, this provides enough information to determine an angular velocity. Incremental encoders are connected to the Installed at the end of the motor shaft. However, incremental encoders are not only sensitive to external ones Disruptions but also costly.

A resolver is a robust detector for determining the absolute angular position of the motor shaft, since it has a rotor that can freely rotate relative to its stator. Here, resolvers are considered Built-in encoder installed in the motor, the motor correspondingly in a complex manner must be constructed. In particular, constructions are known in which the rotor of the Resolver with a large hollow shaft is designed to also with a high torque load loadable motor shafts to be mountable. Within a series, different Sizes different diameters of motor shafts are required, including different ones Resolvers used in different hollow shaft versions. This requires a large one Variety of parts and therefore also high costs for production, assembly and service.

Different types of absolute encoders are also known. Kind of Absolute encoders can be implemented using special code disks, especially with Gray code become. The absolute angular position can thus be determined. But above is necessary also counting all the rotations that have been made. For this, other types of such Absolute encoders made from resolvers or incremental encoders that have an additional Have revolution counter with reduction gear or together with such be evaluated. One advantage of corresponding mechanical solutions is that with Failure of the power supply does not provide information about the total number of revolutions get lost. In contrast, an electronic solution from INDRAMAT is exemplary known. An electronic circuit for counting the revolutions is then always used activated when turning can be determined. Absolute encoders are always complex and therefore also very expensive.  

The invention has for its object to provide a series of electric motors Speed feedback and further develop an electric motor with speed feedback Avoiding the aforementioned disadvantages. In particular, it should be a simple and robust Angular position sensor can be used, which is quick and easy during assembly and maintenance is interchangeable, and as many parts as possible should be saved within the series.

According to the invention, the task with a series of electric motors Speed feedback solved according to the features specified in claim 1 and at a Electric motor with speed feedback according to claim 9. An essential feature of the invention for a series of electric motors with speed feedback and for an electric motor with Speed feedback is that a resolver can be used as the angular position sensor, which is more advantageous Way is robust and inexpensive. Another feature is that the motor shaft on the B side only has a simple bore, which is advantageously inexpensive to manufacture, and that Resolver can be connected to the motor shaft by means of an expansion shaft, this type of Connection is simple, inexpensive and easy to solve. With one in particular Adjustment required for synchronous motors is an important advantage. With such an adjustment the zero position of the stator of the motor is relative to the rotor of the motor with the zero position of the Bring angular position sensor in agreement, the in particular with synchronous motors The zero position of the magnets of the rotor must be brought into line. During the adjustment the resolver and the motor shaft have been disconnected and restored at least once become. The invention advantageously has an easily detachable connection of the Angle position sensor with the motor shaft.

Another key feature is that with a range of electric motors with Speed feedback within a series the motor shaft of motors of different Sizes on the B side have the same hole.

Another key advantage is the particularly simple interface between the motor Motor shaft and angular position sensor, attached by an easy to manufacture bore on the B side becomes. In addition, within the series, i.e. at least within one size, the same hole can be used and therefore the same resolver size. In contrast to the stand the technology in which different sizes in different sizes, in particular different engine torques, this is a huge advantage Manufacturing, assembly, maintenance and service. In addition, the invention usable resolver on a small diameter because it is not running on a hollow shaft must be, and is therefore inexpensive.

In an advantageous embodiment, a revolution counter with a reduction gear is connected to the Motor shaft connectable. The advantage here is that the total number or absolute number of Revolutions is detectable.

In a further advantageous embodiment, the reduction gear is a mechanical one Reduction gear. The advantage here is that even if the supply voltage fails Total number or absolute number of revolutions can be recorded.  

In a further advantageous embodiment, the reduction gear is an electronic one Reduction gear. The advantage here is that complex and costly mechanics can be saved.

In a further advantageous embodiment, motor shafts of Motors of different sizes can be connected to the same resolvers. Is an advantage that components can be saved and therefore in manufacturing, warehousing, assembly, Maintenance and service cost savings are achievable.

Further advantageous embodiments result from the subclaims.  

Reference list

1

Electric motor

2nd

Stator of the resolver

3rd

Resolver rotor

4

Hollow of the resolver

5

Motor shaft

6

Junction box

21

Resolver

22

Spreading wave

23

Motor shaft with bore

24th

Torque arm

25th

Fan

31

Fan with its own drive

The invention will now be explained in more detail with the aid of an illustration:

In FIG. 1, an engine 1 is shown a size of a series of the prior art. It has a connection box 6 and a resolver, comprising stator 2 of the resolver and rotor 3 of the resolver. The rotor 3 of the resolver is mounted on a hollow shaft 4 which is attached to the motor shaft 5 during assembly. A brake with hand release is installed on the B side. Depending on the size, a different resolver must be used and installed, since the transmitted torques are different and therefore the diameter of the hollow shaft 4 is also different.

In FIGS. 2 and 3 embodiments of the invention are shown in which the resolver 21 B-side are anmontiert.

In FIG. 2 of the resolver is 21 B-side cultivated following the fan 25 and connected to the motor shaft 5. The fan 25 is connected to the motor shaft 5 and does not have its own drive. The torque support 24 prevents the resolver 21 from rotating. The connection to the motor shaft 5 is created by an expansion shaft 22 which is introduced into a B-side bore in the motor shaft 23 . This type of connection can be released quickly and easily by tightening or loosening the screw within the expanding shaft 22 and thus the expanding cone pressing the expanding shaft 22 against the wall of the bore or loosening it.

In FIG. 3 of the resolver is 21 B-side is connected to the motor shaft 23. The additional fan 31 has its own drive, since it is not connected to the motor shaft 23 . The resolver 21 may be the same as that in FIG. 2. That is, even within a frame size that includes various embodiments, the resolver 21 can be used in multiple embodiments. This also reduces the variety of parts used and thus also reduces costs.

In both embodiments according to the invention, the resolver 21 can be connected to the motor shaft 23 by means of a coupling shaft 22 . In this case, the motor shaft 23 has a B-side bore which can be manufactured invariably and inexpensively within the series for at least two sizes. The expansion shaft 22 fits into this bore and represents an easily detachable connection. This is not only an important advantage for maintenance or assembly, but also for adjustment. With such an adjustment in synchronous motors, the zero position of the motor and the zero position of the resolver must be brought into agreement, for which purpose at least loosening and restoring the connection of the resolver to the motor shaft is necessary.

The zero position of the motor is defined as at least one specific relative position of the rotor of the motor to the stator of the motor. The zero position of the resolver is also defined as at least a certain relative position of the rotor of the resolver to the stator of the resolver. At the described zero position of the resolver and the motor results from the respective Winding symmetry or winding strand symmetry a corresponding ambiguity of Zero position, d. H. there can be several such zero positions per revolution.

The series comprises several sizes, each with several designs include. With increasing size, from a certain size one becomes Embodiment according to the invention, for example, a new larger fan or fan protection  used. Therefore, from this size, the distance from the resolver to the hole for the Spreading wave. A larger diameter is then selected for the spreading shaft, the Length of course also needs to be adjusted, and there will also be a larger hole chosen. This can continue with increasing sizes.

Claims (15)

1. series of electric motors with speed feedback,
an angular position sensor being connectable to the motor shaft,
and the series has motors of different sizes,
characterized in that
the angular position sensor is a resolver and
that the motor shaft has a bore on the B side and
that the resolver can be connected to the motor shaft by means of an expansion shaft and
that within a series for at least two sizes, the motor shaft of motors of different sizes has the same bore on the B side. 2. Series of electric motors with speed feedback according to claim 1, characterized in that a revolution counter with reduction gear can be connected to the motor shaft. 3. Series of electric motors with speed feedback according to claim 2, characterized in that the reduction gear is an electronic reduction gear. 4. Series of electric motors with speed feedback according to claim 2, characterized in that the reduction gear is a mechanical reduction gear. 5. Series of electric motors with speed feedback according to at least one of the previous claims, characterized in that Within a series of motor shafts of motors of different sizes, each with the same Resolvers are connectable. 6. Series of electric motors with speed feedback according to at least one of the previous claims, characterized in that the electric motors are synchronous motors and / or asynchronous motors. 7. Series of electric motors with speed feedback according to at least one of the previous claims, characterized in that the resolver can be installed on the B-side following the fan, the fan with the motor shaft connected is. 8. Series of electric motors with speed feedback according to at least one of the claims 1 to 6, characterized in that the resolver can be installed on the B side in front of the fan, the fan belonging to the fan Has drive.   9. Electric motor with speed feedback,
an angular position sensor being connectable to the motor shaft,
characterized in that
the angular position sensor is a resolver and
that the motor shaft has a bore on the B side and
that the resolver can be connected to the motor shaft by means of an expansion shaft. 10. Electric motor with speed feedback according to claim 9, characterized in that a revolution counter with reduction gear can be connected to the motor shaft. 11. Electric motor with speed feedback according to claim 10, characterized in that the reduction gear is an electronic reduction gear. 12. Electric motor with speed feedback according to claim 10, characterized in that the reduction gear is a mechanical reduction gear. 13. Electric motor with speed feedback according to at least one of the preceding Expectations, characterized in that the electric motors are synchronous motors and / or asynchronous motors. 14. Electric motor with speed feedback according to at least one of the preceding Expectations, characterized in that the resolver can be installed on the B-side following the fan, the fan with the motor shaft connected is. 15. Electric motor with speed feedback according to at least one of claims 9 to 13, characterized in that the resolver can be installed on the B side in front of the fan, the fan belonging to the fan Has drive.