The invention relates to a brush holder for an electrical swivel and more specifically to a box-type brush holder for several brushes for an electrical swivel.
The invention relates to a brush holder, specifically adapted to be used in an electrical swivel. An electrical swivel is used in an off shore installation for the transfer of electricity between a first, geo-stationary element towards a further element which can weathervane around the first element.
Such an electrical swivel is known, for instance from, U.S. Pat. No. 7,137,822. This document describes a swivel that can be used to transfer electricity produced on a weathervaning FPSO towards a geostationary sub-sea power line. The known swivel comprises at least one connector in the form of a slip ring in combination with a conductor in the form of a brush holder provided with carbon brushes for allowing the transfer of electricity from the conductor towards the connector ring.
The brush holder 100 comprises an arm 110 which on both ends is provided with a clamp 111, 112, each with a first 113 and second 114 frame to receive a brush block 140. Each frame 113, 114 is provided with a spring 141 to urge the brush block 140 against the exterior of the connector 120.
A first problem that occurs with the brush holder 100 according to
The arm 110 is at its ends connected to the clamps 111, 112 by means of further bolts 152, 153. This connection of the arm 110 to the clamps 111, 112 is a further potential obstacle for proper transfer of electricity in the direction of the brush blocks 140.
A further, related problem is the fact that it is likely to have a difference in the electrical resistance between the arm 110 and the clamp 111 at the one end and the arm and the clamp 112 at the other end. This difference in resistance may lead to unwanted and unequal distribution of electricity in the direction of the brush blocks 140.
A further problem related to the use of the brush block 100 is the relative long distance between the brush blocks 140 at opposite ends of the brush holder 100, as will be explained with reference to
In the position according to
However, the situation will be very different in the situation shown in
This means that the transfer of electricity from the brush holder 100 to the connector will not evenly be distributed over the several brushes 140, but on the contrary will be concentrated in only few of the brushes 140. This will lead to local heating of the brushes 140 (also known under the name hot spots) and this may deteriorate the functioning of the device in the long run.
The object of the invention is to provide a brush holder for an electrical swivel and an electrical swivel provided with such a brush holder which can avoid at least some of the problems related to the installation, use and maintenance of brush holders for electrical swivels according to the prior art.
According to a first aspect of the invention, the invention relates to a brush holder for an electrical swivel, wherein the brush holder is provided with an electrically conductive body, provided with means for connecting the body to a feed line for electrical energy and provided with at least one recess for receiving a brush adapted to transfer electrical energy towards a connector, wherein the brush is connected to the body by means of an electric wire for the transfer of electrical energy from the body towards the brush and by means of a spring for allowing the brush to be pushed out of the recess and to protrude from the surface of the body adapted to face the connector and for urging the brush against the connector.
In the present text the wording ‘electrical swivel’ is used for a device provided with a at least one combination of a brush holder, provided with at least one brush and a connector in the form of a connector ring to which the brush is connected, wherein the electrical swivel is used to transfer electricity from a stationary feed line towards a stationary brush holder and via the at least one brush of the brush holder towards a connector ring and outlet for electrical energy connected to the connector ring, wherein the connector ring is adapted to rotate with respect to the brush holder.
According to the invention several brushes will be encapsulated close together in a cassette or housing. This enables a much more compact swivel design with fewer components.
The brush holder according to the invention will allow a safer design and use, with less danger of short circuits, easier installation, change out and maintenance due to a modular structure and the device will avoid sparks and hot spots within the electrical swivel.
According to a preferred embodiment of the invention the at least one brush has the form of a brush block.
According to a preferred embodiment of the invention the brush holder is provided with a series of brushes, wherein the brushes are positioned in order to allow the protruding surfaces of the brushes to contact a connector in the form of a ring.
According to a preferred embodiment of the invention the brush holder is provided with a cover for covering the recesses the brushes received in the recesses.
According to a preferred embodiment of the invention the brush holder comprises a first series of brushes positioned above a second series of brushes.
According to a preferred embodiment, the brush holder comprises a temperature prop adapted to give, in real time, the brush temperature during operation.
According to a preferred embodiment, the temperature prop has the form of an optical temperature prop.
According to a second aspect of the invention, the invention relates to an electrical swivel provided with the brush holder according to the invention.
The invention will be better understood after the following description with reference to the accompanying drawings wherein:
a, 6b, and 6c schematically show three different embodiments for the brush holder according to the present invention, and
The brush holder 1 is provided with a body 10 from electrical conductive material, such as copper. The body 10 could be formed from a massive copper plate.
The body 10 of the brush holder 1 is provided with integral connecting means in the form of an opening 11 for receiving the feed line 30. Proper electrical contact is obtained by urging the body 10 and the feed line 30 to each other by means of bolt 12.
The body 10 is provided with a series of recesses 13, each adapted to receive a brush in the form of a brush block 40. According to embodiment of
In order to connect the brush blocks 40 to the body 10, shunts 14 are used. For optimal electrical contact, each brush block 40 is connected by means of four shunts 14 to the body 10. In
The brush blocks 40 are also connected to the body 10 by means of springs 41. These springs 41 are used to allow the brushes 40 to protrude from the surface 80 of the body 10 which is adapted to face the connector 20 and to urge the brushes 40 against the exterior of the connector 20 in order to assure proper electrical contact between the brushes 40 and the connector 20.
This force could be in the range of 50-60 Newton, preferably 53 Newton.
The body 10 is provided with two further openings 15, to receive fixing notches 50. The brush block 1 is fixed at an appropriate distance with respect to the connector 20 by fixing the body 10 on the two notches 50 by means of bolts 16.
When installing the brush holder 1 the gap between the connector ring 20 and the brush holder 1 is typically in the range of a comfortable 8 mm. This allows the assembly to be easy and without the need of very high precision. The advantage hereof is cost saving.
Once the brush block 1 is properly fixed next to the connector 20 the electrical energy can by transferred towards the connector 20: from the feed line 30 towards the body 10; from the body 10, via the shunts 14 towards the brush blocks 40; and from the brush blocks 40, which are biased by means of the springs 41, towards the connector 20.
The brush holder 1 according to
The brush holder 1 according to
The brush holder 1 according to
In other words, the amperage distribution is homogeneous due to the compactness of the brush holder 1. The brush holder 1 allows more surfaces of the brushes 40 to be in contact in a shorter area of the connector 2, then the devices according to the prior art (see
Moreover, the brush holder 1 gives more short circuit acceptance due to the increasing surface of the brush holder section. The constant force of the brushes 40 on the connector 20 is guaranteed; even during high short circuit level which will generate high temperature, shocks, and mechanical deformations.
The design of brush holder 1 according to
The module also provides advantages when assembling the electrical swivel. The module can be put into place in one single operation. The module can be filled with oil in order to allow the device to be insulated in oil during operation. Also in case of maintenance, the module can be removed and replaced in a very time efficient manner. The device 1 guarantees the encapsulation of all components and will avoid looses of parts during a possible violent external short circuit fault.
One of the other advantages of having a very compact brush holder is the fact that more rings can be stacked in an electrical swivel, offering more paths in lower height. That means that it is possible to install more connectors 20 due to the compactness of the brush holder 20.
In
According to
According to
According to
Other alternatives are possible, wherein for instance three or more layers of brushes are used.
The brush holder 1 according to the invention could be used in the following versions:
I: A Brush Holder Having 7 Block Brushes (See
II: Brush Holder Having 14 Block Brushes (See
In
The temperature prop 50 can be used for monitoring of the temperature of the brush holder 1′ wherein a change in temperature of the brush holder 1′ indicates if there is a contact deficiency between brushes 40 and a contact ring 20 with which the brushes 40 are in contact. The presence of a temperature prop will add an additional safety feature to the brush holder 1′.
Number | Date | Country | Kind |
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101653038 | Jun 2010 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2011/058548 | 5/25/2011 | WO | 00 | 11/16/2012 |