This is a §371 application of International patent application number PCT/EP2010/004104 filed Jun. 30, 2010, which claims priority of European patent application number 09460035.0 filed on Aug. 7, 2009, both of which are incorporated herein by reference.
The subject of the invention is a disconnector for electric power equipment filled with dielectric liquid, and especially for transformers, applicable in protecting the operation of electric power equipment.
Electric power equipment, and especially transformers filled with dielectric liquid, operating in medium and/or high voltage networks, contain protective systems whose purpose is to eliminate the effects of various failures and to disconnect the power supply system from the network if an internal fault occurs in the transformer. The protective systems contain current-limiting fuses with tripping devices which control the disconnector and which are coupled with a control sensor used to control the pressure and level of oil inside the transformer tank. Exceeding the predetermined parameters of oil level or pressure results in shorting of fuses, and consequently in the disconnection of the transformer. In known solutions protecting transformers against internal faults, the disconnector whose movable contacts are situated on a rotary strip, contains current-limiting fuses, fixed to the rotary strip and suitably spaced in one row, the spacing resulting from the dimensions of the external insulators in which the current-limiting fuses are placed.
A device protecting against the effects of internal voltage surges in electrical equipment, and especially in a distribution transformer, is know from patent description EP 0817346. This devise is immersed in the dielectric liquid of the earthed tank of the transformer and it is connected with the structure of the active part of the transformer. The protective device contains a phase disconnection system and devices for detecting the flow of earth current between earth and the structure of the active part of equipment. The phase disconnection system which is provided with blocking devices with fixed contacts is attached to the rotary rod of the disconnector. In the closed position of the disconnector, the fixed contacts contact the tripping devices of the fuses. If one of the fuses blows, the freed tripping device, through a contact with a lever connected with the rod of the three-phase disconnector, causes a turn of the rod and the disconnection of the other fuses from the power supply system.
There are known TPC oil transformers, manufactured by Transfix Toulon, which contain a disconnector situated in the oil transformer tank and three or two medium voltage fuses, situated vertically in the tank. The fuses together with the tripping devices are situated in bushings which are fixed in one row to a rotary rod of a three- or two-phase disconnector which is situated in the bottom or upper part of the transformer tank. The disconnector is activated by the tripping device if a fuse blows. The use of vertical bushings with fuses arranged in a row in relation to the rotary rod of the disconnector causes that the disconnector occupies relatively much space inside the transformer tank.
The essential quality of the inventive disconnector, containing at least two cylindrical current-limiting fuses which are situated inside the tank and each fuse is electrically connected with external phase power supply and, through fixed contacts and moving contacts of the disconnector, with the active part of the electric power equipment, is that the current-limiting fuses are situated in a common housing in which a slide with a guide is situated. Moving contacts are inseparably attached to the slide and the contacts move together with the slide during the to-and-fro motion. The to-and-fro motion takes place as a result of the action of the tripping device situated in the current-limiting fuses and of compression or stretching of springs attached to the slide guide and to a fixing disk.
The disconnector contains three cylindrical current-limiting fuses which are situated in a common housing in such way that the longitudinal axes of the fuses are parallel to one another, and the projection of their longitudinal axes on a plane perpendicular to them determines three points which when connected with one another form the vertexes of a triangle in whose area the projection of the axis of the travel of the slide is situated.
In another embodiment the disconnector contains two cylindrical current-limiting fuses and a jumper, all of which are situated in a common housing in such way that the longitudinal axes of the fuses and the longitudinal axis of the jumper are situated parallel to one another, and the projection of the longitudinal axes of the fuses and of the jumper on a plane perpendicular to them determines three points which when connected with one another form the vertexes of a triangle in whose area the projection of the axis of the travel of the slide is situated.
In some embodiments, the jumper may contain cylindrical shorting contacts which are connected with each other by a conducting spindle.
In some embodiments, the cylindrical shorting contacts may have a diameter equal to the diameter of the cylindrical fuses.
In some embodiments, the moving contacts in the open position of the disconnector are in contact with a grounded fixing disk.
In some embodiments, the disconnector housing is fixed inside the transformer tank.
In other embodiments, the disconnector housing is fixed to the cover of the transformer tank.
The advantage of the inventive disconnector is its compact design allowing the construction of electric power equipment, and especially a transformer, of a smaller weight and dimensions. Making the insulating gap between the contacts by linear and not rotary movement allows to maintain the required insulating distances between the equipment contacts, both when the transformer is filled with oil and in an emergency situation, when the oil level drops, and therefore it ensures three-phase disconnection of the transformer from the power supply network. Smaller number of the disconnector components, and especially the absence of individual, complex insulators for current-limiting fuses permits not only a decrease in the weight and dimensions but it also allows to avoid assembly errors, because adjustment of the relative position of the fixed and moving contacts is no longer required.
The inventive disconnector is presented as an embodiment in the drawing where:
and
A piece of electric power equipment in the form of a distribution transformer contains a tank 1 which houses the active part of the transformer 2, schematically shown in
The operation of the disconnector according to this invention is as follows. The fuses 9 which are secured in holders 10a and 10b are arranged axially and symmetrically around the longitudinal axis which is parallel to the axis of travel of the slide 20 which moves together with moving contacts 25 situated on it. In closed state shown in
In the second embodiment of the invention, presented in
Number | Date | Country | Kind |
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09460035 | Aug 2009 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2010/004104 | 6/30/2010 | WO | 00 | 2/3/2012 |
Publishing Document | Publishing Date | Country | Kind |
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WO2011/015263 | 2/10/2011 | WO | A |
Number | Name | Date | Kind |
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1989485 | Marti | Jan 1935 | A |
2509935 | Nelson | May 1950 | A |
4743996 | Book | May 1988 | A |
5898556 | de Sedouy et al. | Apr 1999 | A |
6839207 | Folliot et al. | Jan 2005 | B2 |
7755868 | Flores Losada | Jul 2010 | B2 |
Number | Date | Country |
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0817346 | Jan 1998 | EP |
1122848 | Aug 2001 | EP |
1783796 | May 2007 | EP |
Entry |
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International Search Report in corresponding application PCT/EP210/004104 mailed Aug. 20, 2010. |
Written Opinion in corresponding application PCT/EP210/004104 mailed Feb. 7, 2012. |
Number | Date | Country | |
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20120133479 A1 | May 2012 | US |