DE102008003672A1 - Electric transformer unit - Google Patents

Abstract

The invention relates to an electrical transformer unit (10) with a transformer (11) filled with oil (13), in the transformer housing (12) of which a plurality of coil windings are accommodated. The transformer unit (10) is provided with one or more of the oil (13) through which Kühlradiator / s (15) and with a plurality of the radiators (15) associated with fans (17, 18). The speed of the fan (17, 18) is infinitely adjustable and there is a common voltage device for all fans (17, 18) is provided.

Description

The The invention relates to an electrical transformer unit with an oil filled transformer, in the transformer housing a plurality of coil windings are housed, with one or more several cooling radiators through which the oil flows, and associated with a plurality of the cooling radiators Fans.

Such a transformer unit is for example from the WO 01/37292 A1 known.

Further it is known the individual fans of such a transformer unit separately with a remote control cabinet, for example to connect and from there on and off individually. are For example, ten fans available, so can either none or just one or two and so on or all Fans are turned on. This way can help with the fan generates an airflow whose strength is in ten levels is adjustable.

by virtue of the separate wiring of each fan is created a high component cost and the explained step-shaped Control possibility of the fans is limited.

task The invention is the control of the fan to improve and reduce the component required for this purpose.

These Task is in a transformer unit of the aforementioned Art solved according to the invention that the speed of all fans is infinitely adjustable, and that a common power supply for all fans is provided. With the help of stepless adjustability is a Any control and / or regulation of the speed of the fan possible. At the same time, along with this measure a common power supply for all fans provided, preferably a single common line of the fans, for example, to a remote control cabinet having. Thus, the component cost is significantly reduced. Furthermore, a bus can be provided, all fans serially with one another and then, for example, with a remote one Switch cabinet connects. Also in this way, the component cost be reduced. Preferably, the motor protection switch and overload protection decentralized assigned to the individual fans be. Thus, the component cost is located in the remote Switch cabinet reduced.

Further Features, applications and advantages of the invention result from the following description of exemplary embodiments of the invention, which are illustrated in the figures of the drawing. All described or illustrated features form for itself or in any combination the subject of the invention, independently from its summary in the claims or their relationship and regardless of theirs Formulation or representation in the description or in the drawing.

1 shows a schematic view of an embodiment of an electrical transformer unit according to the invention with a plurality of fans, 2 shows a schematic plan view of the transformer unit of 1 with a first embodiment according to the invention an electrical wiring of the fan, and 3 shows a schematic circuit diagram for a second inventive embodiment of an electrical wiring of the fan 1 ,

In the 1 is a transformer unit 10 shown a single or multi-phase electric transformer 11 in which in a transformer housing 12 a plurality of coil windings (not shown) are accommodated. Among other things, for cooling these coil windings is the transformer housing 12 with an oil 13 , especially filled with an insulating transformer oil.

In operation of the transformer 11 will this oil 13 heated. For cooling, the oil 13 from the transformer housing 12 over pipelines 14 to one or more, outside the transformer housing 12 arranged Kühlradiator / en 15 guided and from there back into the transformer housing 12 , Optionally, for example, in one of the pipelines 14 a pump 16 interposed for the purpose of generating the described oil circuit.

From the cooling radiators 15 the heat contained in the oil is absorbed and discharged to the outside in the ambient air. To dissipate the heat from the immediate vicinity of the cooling radiators are electric fans 17 provided with the help of which an air flow is generated, with which of the Kühlradiatoren 15 discharged heat is dissipated in the wider environment. The fans 17 are the radiators 15 and are thus in the immediate vicinity of the radiators 15 arranged.

Preferably, the fans 17 below the cooling radiators 15 arranged so that a flow of air in a vertical direction from the bottom up through the radiators 15 arises.

Alternatively or additionally, several Fan 18 be provided, which generate an air flow in the horizontal direction.

Due to the structural size of the transformer 11 are a majority of the fans 17 . 18 intended. For example, 10 airs can be arranged in a row. This arrangement of fans can also on the opposite, not shown in the figure page of the transformer 11 be provided. But it is also any other arrangement of a plurality of fans 17 . 18 conceivable, provided with these fans that of the Kühlradiatoren 15 discharged heat can be dissipated in the wider environment.

In a non-illustrated manner are in the transformer unit 10 one or more sensors are present, with which the temperature of the oil 13 and / or the temperature of the transformer housing 12 and / or the temperature of the radiators 15 and / or the temperature of the radiators 15 flowing air and / or the like can be measured. Furthermore, one or more sensors are present, with which through the coil windings of the transformer 11 flowing current and / or voltage applied to the coil windings voltage and / or the like can be measured.

In the 2 is a wiring diagram for the electrical wiring of the fans 17 . 18 of the 1 shown. The number of fans 17 . 18 can be arbitrary.

In the 2 are the majority of fans 17 . 18 in each case one row on the two longitudinal sides of the transformer 11 arranged. The consecutive fans 17 . 18 are over a loop 19 connected with each other. In that regard, the successive fans form 17 . 18 a series connection.

The ring line 19 includes on the one hand electrical lines for a common power supply of the fan 17 . 18 and on the other hand a bus and / or one or more digital and / or analog signal line / s for the control of the fan 17 . 18 , All of these lines may preferably be guided in a common cable.

The ring line 19 flows from both sides into a control cabinet 20 ,

In the control cabinet 20 Means are provided to the electrical wires for powering the fan 17 . 18 to supply with the required electrical voltage. This electrical voltage is preferably from both sides in the loop 19 fed. This allows all fans 17 . 18 even with an interruption of the loop 19 supplied with the electrical voltage and continue to be operated.

In the control cabinet 20 Control means are included for controlling the bus and / or the signal line (s) with control signals for the fans 17 . 18 to supply. It can be provided that the control signals are fed into the bus and / or the signal line (s) only from one side, that the first fan is a so-called master and the subsequent fans are so-called slaves, and that the master controls itself and the slaves or regulates. Alternatively it can be provided that the control or regulation in the control cabinet 20 or by a higher-level controller, and that the control signals are fed from both sides into the bus and / or the signal line / s.

Each of the fans 17 . 18 is designed such that it is infinitely adjustable in dependence on an input signal to an arbitrary speed between zero and a maximum speed. The input signal is the respective fan 17 . 18 can be supplied via the bus and / or the signal line (s). The input signal may be an analog or digital signal. Furthermore, each is the fan 17 . 18 another input signal can be fed so that the various fans can be operated at any different speeds.

Each of the fans 17 . 18 is provided with a control and / or regulation, with which the actual speed of the fan 17 . 18 is set to that speed, by means of the input signal for the respective fan 17 . 18 is given. Furthermore, everyone is the fan 17 . 18 provided with protective devices, for example with a motor protection switch or overload protection or the like.

During operation of the transformer unit 10 For example, the sensor signals measured by the sensor or sensors are processed, for example, by a higher-level controller, for example as a function of the temperature of the oil 13 and / or depending on the current flowing in the coil turns a speed for the fan 17 . 18 to determine. It is understood that other dependencies of the determination of the speed can be used.

It is possible, all fans 17 . 18 operate at a single speed or for each of the fans 17 . 18 to determine a separate speed depending on the aforementioned sensor signals and the individual fans 17 . 18 then operate independently.

The for all fans 17 . 18 determined speed or for each fan 17 . 18 identified Speeds are sent to the fans via the bus and / or the control line (s) 17 . 18 transfer. The individual fans 17 . 18 then adjust their actual speed continuously to the specified speed.

This is a stepless adjustment of the speed of all fans 17 . 18 possible, namely at a common speed or at mutually independent speeds for each fan 17 . 18 , The predetermined speed (s) can be determined as a function of individual or several different sensor signals. The required electrical energy is provided by the fans 17 . 18 over the electrical wires for the power supply.

The control or regulation can be carried out in such a way that as far as possible none of the fans 17 . 18 running at its maximum speed, but that as possible all fans 17 . 18 be operated at a speed that is less than the maximum speed. This contributes to the noise reduction.

Farther may be provided in the control or regulation that a failure a fan is detected, and that then the speed the remaining fan is just increasing, that the failure is compensated. This is the operational safety elevated.

In the 3 is a wiring diagram for the electrical wiring of the fans 17 . 18 of the 1 shown. The number of fans 17 . 18 can - as explained - be arbitrary.

All fans 17 . 18 are connected to a common power supply, which consists of a common connection 21 for all fans 17 . 18 and a single common line 22 consists. The entire power supply has at least two electrical lines 23 . 24 but may also be formed in three or more phases.

The common connection 21 is in the immediate area of the fan 17 . 18 present, so that the length of the lines 23 . 24 from the individual fans 17 . 18 to the common connection 21 is low. From the common connection 21 leads the joint leadership 22 for example, in the direction of a remote control cabinet. The length of this single common line 22 can be much larger than the length of the lines 23 . 24 from the individual fans 17 . 18 to the common connection 21 ,

Furthermore, in the 3 a bus and / or an analog and / or digital signal line 25 provided, all fans 17 . 18 connects serially with each other. The length of the bus or the signal line 25 between the individual fans 17 . 18 is rather low, while the length of the bus or the signal line 25 from the last of the fans 17 . 18 For example, to a remote control cabinet can be much larger than the aforementioned length between the fans 17 . 18 ,

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• WO 01/37292 A1 [0002]

Claims (8)

Electric transformer unit ( 10 ) with one with oil ( 13 ) filled transformer ( 11 ), in whose transformer housing ( 12 ) a plurality of coil windings are housed, with one or more of the oil ( 13 ) cooled radiator (s) ( 15 ), and with a plurality of the radiators ( 15 ) associated fans ( 17 . 18 ), characterized in that the speed of all fans ( 17 . 18 ) is infinitely adjustable, and that a common power supply for all fans ( 17 . 18 ) is provided. Transformer unit ( 10 ) according to claim 1, wherein all fans ( 17 . 18 ) are continuously adjustable together. Transformer unit ( 10 ) according to claim 1, wherein each of the fans ( 17 . 18 ) independent of the other fans ( 17 . 18 ) is infinitely adjustable. Transformer unit ( 10 ) according to any one of the preceding claims, wherein the speed depends on the temperature of the oil ( 13 ) and / or the current flowing through the coil turns and / or the like is adjustable. Transformer unit ( 10 ) according to any one of the preceding claims, wherein each of the fans ( 17 . 18 ) is designed such that it controls its actual speed to the predetermined speed and / or regulated. Transformer unit ( 10 ) according to one of the preceding claims, wherein a bus and / or a control line is provided, which all fans ( 17 . 18 ) serially with each other and then, for example, connects to a remote control cabinet. Transformer unit ( 10 ) according to one of the preceding claims, wherein the common voltage supply for all fans ( 17 . 18 ) is designed as a loop line. Transformer unit ( 10 ) according to one of the preceding claims, wherein the common voltage supply for all fans ( 17 . 18 ) a single common line ( 22 ) from the fans ( 17 . 18 ), for example, has a remote control cabinet.