July 7, 2016 - 10:01 PM EDT
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Patent Issued for Magnet Assembly (USPTO 9379583)

By a News Reporter-Staff News Editor at Journal of Engineering -- SIEMENS AKTIENGESELLSCHAFT (Munchen, DE) has been issued patent number 9379583, according to news reporting originating out of Alexandria, Virginia, by VerticalNews editors.

The patent's inventor is Booth, James Kenneth (Brande, DK).

This patent was filed on January 18, 2011 and was published online on June 28, 2016.

From the background information supplied by the inventors, news correspondents obtained the following quote: "Electromechanical transducers are machines, which convert electrical energy into mechanical energy or vice versa. An electric motor is a widely used electromechanical transducer that converts electrical energy into mechanical energy using magnetic field linkage. An electric generator is an electromechanical transducer that converts mechanical energy into electrical energy also using a magnetic field linkage.

"An electromechanical transducer comprises a stator and a rotor. The stator is an assembly, which represents the stationary part of an electromechanical transducer. The rotor is an assembly, which represents the moving part of an electromechanical transducer.

"In order to realize a magnetic field linkage, magnets, for instance permanent magnets, may be used in particular for a rotor of an electromechanical transducer. In recent years, especially since the introduction of rare-earth magnetic materials, permanent magnet (PM) electromechanical transducers have become popular since they eliminate the need for commutators and brushes, which are commonly used with conventional Direct Current (DC) electromechanical transducer. The absence of an external electrical rotor excitation eliminates losses on the rotor and makes permanent magnet electromechanical transducers more efficient. Further, the brushless design of a PM electromechanical transducer allows conductor coils to be located exclusively in the stationary stator. In this respect it is mentioned that non-PM electromechanical transducers, which are equipped with commutators and brushes, are susceptible to significantly higher maintenance costs.

"PM electromechanical transducers are also known for their durability, controllability, and absence of electrical sparking. Thanks to their advantages the PM electromechanical transducers are widely used in many applications such as electric vehicles (electromechanical transducer is a motor) or in power generation systems (electromechanical transducer is a generator) such as for instance a wind turbine.

"Strong permanent magnets, like rare-earth magnets, are used to an increasing extent in large electrical machines, especially in motors and generators. This is due to the increased efficiency and robustness compared to electrical excitation. But regarding practical applications some difficulties may occur. The materials, in particular of rare-earth magnets, may be rather brittle and cannot safely be fixed by bolting alone. The magnets may be fixed to a rotor rim for example by, for instance, gluing. Furthermore, it may be a difficult, time consuming and not least a hazardous process to handle the individual magnets and to get the correct position of each magnet as the magnets may be pulled towards other magnets and ferromagnetic objects in the production setup. Thus, the mounting and alignment of the permanent magnets at the rotor assembly are difficult and time consuming. Therefore, there may be a need for facilitating mounting and alignment of permanent magnets to a rotor assembly of an electromechanical transducer."

Supplementing the background information on this patent, VerticalNews reporters also obtained the inventor's summary information for this patent: "This need may be met by the subject matter according to the independent claims. Advantageous embodiments of the present invention are described by the dependent claims.

"According to a first aspect of the invention there is provided a magnet assembly comprising a base element and a magnet attached to a first surface of the base element, wherein a second surface of the base element opposite to the first surface of the base element comprises a contour, which is adapted to engage with a complementary contour of a support structure of a rotor arrangement.

"The described magnet assembly is based on the idea that, by using a contour and a complementary contour, each magnet may be pushed safely in place providing a great advantage in contrast to traditional mounting, where each magnet is installed without any guidance and where the magnet can be pulled to another object by magnetic force. Further, the magnet assembly may be more safely handled in production as the magnets that are used may be very strong and constitute a potential safety hazard if not handled correctly, but may be easily mounted as the contour arrangement may provide a secure guidance for the positioning of the magnets. The magnet assembly may provide a short time in production saving money. The use of one patron (one pole patron) comprising a number of magnets corresponding to one entire pole may provide easier and safer handling of the magnets during assembly of the rotor. The magnet assembly may further provide a possibility for automated or semi automated assembly of the rotor.

"The base element may comprise a contour, which is adapted to engage with a complementary contour of the support structure. This may provide the advantage that the base element or mounting structure and the support structure can be mechanically connected to each other in a reliable manner without using any specific tools such as a screwdriver or a spanner.

"Specifically, when manufacturing the rotor arrangement the magnet assembly may be inserted into a groove or put onto a protrusion of a central shaft of the rotor arrangement in a slidable manner, wherein the groove or the protrusion extend in the longitudinal axial direction of the central shaft.

"The base element may be a base plate comprising a first side corresponding to the first surface of the base element and a second side corresponding to the second surface of the base element. This may provide the advantage that a permanent magnet, which usually has a planar surface, can be attached easily to the base element.

"Further, by using a base plate the base element can have a flat design, such that the magnet assembly can be realized within a compact and in particular within a flat configuration. This may provide the advantage that when using the described magnet assembly the diameter of a corresponding rotor assembly will be only marginally larger than the diameter of a conventional rotor assembly.

"According to a further embodiment of the invention, the contour and/or the complementary contour is formed in a dove tail manner. This may provide the advantage that the magnet assembly can be aligned correctly with the support structure. Further, a dove tail shape or any similar geometric form may ensure a mechanically reliable fastening of the magnet assembly with the support structure of the rotor arrangement.

"According to a further embodiment of the invention, the support structure of the rotor arrangement comprises a protrusion and the base element comprises a recess for engaging with the protrusion of the support structure of the rotor arrangement. The base element may be shaped with a dove-tail guide on the opposite side of where the magnet is attached. The dove-tail guide may be prepared to engage with a corresponding protrusion on the rotor support structure.

"According to a further embodiment of the invention, the base element comprises a protrusion and the support structure of the rotor arrangement comprises a recess for engaging with the protrusion of the base element. In this case, the rotor support structure may comprise a dove tail guide that is prepared to engage with a corresponding part on the base element.

"According to a further embodiment of the invention, the magnet is attached to the base element by a gluing material. The glue may be located at a boundary surface between the base element and the permanent magnet. This may mean that the fastening of the permanent magnet to the base element is realized by gluing.

"In view of a typical large brittleness of magnetic materials attaching the permanent magnet to the base element may be preferable in particular over other fastening mechanisms such as using screws and/or bolts. By using an appropriate glue material the risk for damaging the permanent magnet when attaching the same to the base element may be kept very small.

"According to a further embodiment of the invention, the magnet assembly further comprises a protective cover encapsulating the magnet. The magnet may consist of a material which corrodes very easily and needs a high degree of protection. Therefore, the magnet assembly may comprise a protective cover for encapsulating the magnet.

"According to a further embodiment of the invention, the protective cover consists of a non-metallic material.

"According to a further embodiment of the invention, the protective cover is fixed to the base element. The protective cover may be fixed to the base plate or element for instance by gluing, welding or soldering.

"According to a further embodiment of the invention, the base element and/or the protective cover comprises an opening for evacuating an interior of the protective cover. The interior cavity between the protective cover and the base element may be evacuated through at least one opening in the base element or in the protective cover. In a further embodiment, two openings both located in the base element may be used, one opening to evacuate the interior cavity and the other opening to inject a filling mass. The magnets may less corrode and be mechanically protected inside a hermetically sealed protective cover filled with a suitable filling mass.

"According to a further aspect of the invention there is provided a rotor arrangement for an electromechanical transducer. The provided rotor arrangement comprises a support structure and a magnet assembly as described above.

"The described rotor assembly is based on the idea that by using the magnet assembly as described above each magnet may be pushed safely in place.

"According to a further aspect of the invention there is provided an electromechanical transducer comprising a stator assembly and a rotor arrangement as described above.

"The provided electromechanical transducer is based on the idea that with the above described rotor arrangement, using a contour and a complementary contour, each magnet may be pushed safely in place.

"According to an embodiment of the invention the electromechanical transducer is a generator.

"According to a further aspect of the invention there is provided a wind turbine for generating electrical power. The provided wind turbine comprises a tower, a rotor, which is arranged at a top portion of the tower and which comprises at least one blade, and an electromechanical transducer as described above, wherein the electromechanical transducer is mechanically coupled with the rotor.

"According to a further aspect of the invention there is provided a method for engaging a magnet assembly to a support structure of a rotor, wherein the magnet assembly comprises a base element and a magnet attached to a first surface of the base element. The provided method comprises engaging a contour of a second surface of the base element opposite to the first surface of the base element with a complementary contour of a support structure of a rotor arrangement.

"Also the described engaging method is based on the idea that by using the magnet assembly as described above each magnet may be pushed safely in place providing a great advantage in contrast to traditional mounting, where each magnet is installed without any guidance and where the magnet can be pulled to another object by magnetic force. Further, by using the described method, the magnet assembly may be more safely handled in production as the magnets that are used may be very strong and constitute a potential safety hazard if not handled correctly, but may be easily mounted as the contour arrangement may provide a secure guidance for the positioning of the magnets.

"It has to be noted that embodiments of the invention have been described with reference to different subject matters. In particular, some embodiments have been described with reference to apparatus type claims whereas other embodiments have been described with reference to method type claims. However, a person skilled in the art will gather from the above and the following description that, unless other notified, in addition to any combination of features belonging to one type of subject matter also any combination between features relating to different subject matters, in particular between features of the apparatus type claims and features of the method type claims is considered as to be disclosed with this document.

"The aspects defined above and further aspects of the present invention are apparent from the examples of embodiment to be described hereinafter and are explained with reference to the examples of embodiment. The invention will be described in more detail hereinafter with reference to examples of embodiment but to which the invention is not limited."

For the URL and additional information on this patent, see: Booth, James Kenneth. Magnet Assembly. U.S. Patent Number 9379583, filed January 18, 2011, and published online on June 28, 2016. Patent URL: http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&d=PALL&p=1&u=%2Fnetahtml%2FPTO%2Fsrchnum.htm&r=1&f=G&l=50&s1=9379583.PN.&OS=PN/9379583RS=PN/9379583

Keywords for this news article include: Oil & Gas, Wind Energy, SIEMENS AKTIENGESELLSCHAFT.

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Source: Equities.com News (July 7, 2016 - 10:01 PM EDT)

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