DE3127015C2 - Electrical utility device, in particular a power transformer - Google Patents

Abstract

Electrical utility device, in particular a power transformer with a cooling circuit through which a cooling medium flows, which is connected to at least one cooler circuit comprising a cooler and to a heat exchanger circuit arranged parallel to the cooler circuit, comprising a heat exchanger and in which an operating element that switches this circuit on and off is arranged, connected. So that one of the two circuits, i.e. the cooler circuit and the heat exchanger circuit, can be switched on in a simple manner, the flow resistance of the heat exchanger circuit is selected to be considerably lower when switched on and significantly higher than that of the cooler circuit when switched off.

Description

The invention relates to an electrical utility device, in particular a Leis'MKgstransformator with a through a Cooling medium flowing through the cooling circuit, which consists of at least one cooler circuit comprising a cooler and from a heat exchanger circuit comprising a heat exchanger and arranged parallel to the cooler circuit, in which a conveyor organ that switches this circuit on and off is arranged.

It is known (CH-PS 3 49 001) to have two parallel cooling circuits for cooling an electrical transformer to be provided. Each of these cooling circuits is preferably used for cooling a specific area of the transformer used. There is a pump and a cooler in each cooling circuit. The two pumps are constant in operation to prevent overheating in the associated cooling areas of the transformer. the Flow resistances in both parallel cooling circuits are the same.

It is also known (DE magazine "electrical energietechnik", 26th year., 1981, No. 4; 26.6. 81, p. 31), for the use of waste heat in the case of oil transformers for space heating and domestic water heating, one to the transformer to operate the connected cooler circuit and heat exchanger circuit in parallel. In the heat exchanger circuit there is obviously a continuously running pump, while there is an actuator in the cooler circuit (Steep valve), with which the proportion of the cooling liquid on the cooler circuit and the heat exchanger circuit is distributed. Both the creation and the maintenance costs such a device are required by the price and the installation costs as well as by Maintenance costs for the actuator are relatively high.

In contrast, the object of the invention is an electrical utility device, in particular a power transformer with a cooling circuit through which a cooling medium flows, in which the cooling medium flow is passed through either the cooler circuit or the heat exchanger circuit, with almost none Maintenance is required and one of the two external circuits can easily be switched on can.

This object is achieved with the features of claim 1, the flow resistance in a known manner of the heat dissipation circuit is considerably lower in the on-state and in the off-state is selected significantly higher than that of the cooler circuit and omitting valves & iS cooling medium essentially transported through the heat exchanger circuit when the conveyor element is switched on and flows through the cooler circuit when the pumping element is switched off. By this measure

i; In the switched-on state, due to the low flow resistance, essentially the entire flow of cooling medium will be transported through the heat exchanger circuit, while in the switched-off state, essentially the entire flow of cooling medium will choose the path through the cooler circuit. Valves and the like are not required according to the invention. In a manner known per se, a pump is used as the switch-on or switch-off element
In an expedient constructive embodiment according to claim 2, the connections of the cooler circuit and the heat exchanger circuit are designed as concentric lines.

Due to the suction effect of the pump and the concentric course of the connection line of the heat exchanger circuit compared to the connection line of the cooler circuit is essentially the entire flow of cooling medium choose the route through the heat exchanger circuit. When seen in a long period of time wants to route the cooling medium through the heat exchanger circuit as well as through the cooler circuit, Such a medium flow can be achieved by switching the pump on intermittently.

The heat loss recovered in the heat exchanger can, for. B. used for space heating will.

The invention is described in more detail below with reference to the drawings. It shows

F i g. 1 schematically the system according to the invention,
Fig. 2 schematically shows the flow path with the pump switched off and

F i g. 3 the flow path with the pump switched on. The transformer 1 is with the help of the cooler circuit 2 connected to the cooler 3. A cooling medium flows through the cooler circuit 2 and is cooled in the cooler 3. The transport of the cooling medium can be brought about by the natural thermosiphon effect. Both the transformer, the cooler circuit and the cooler are of a known type. Parallel to the heat exchanger circuit 4 is arranged in the cooler circuit 2. A heat exchanger 5 is located in this circuit 4 and a pump 6 is arranged. When the pump 6 is switched on, the main flow of the cooling medium is passed through the district 4 are headed. When the pump 6 is switched off, the circuit 4 and the medium are switched off at the same time flows through the circle 2. This is shown schematically in FIGS.

An example of the already mentioned concentric arrangement of the connecting line 7 of the cooler circuit 2 and the connecting line 8 of the heat exchanger circuit 4 is in Fi g. 1 shown.

1 sheet of drawings

Claims (1)

Patent claims: 1. Electrical utility device, especially power transformer with a cooling circuit through which a cooling medium flows and which consists of at least one a cooler circuit comprising a cooler and a cooler circuit arranged in parallel to the cooler circuit, a heat exchanger comprehensive heat exchanger circuit, in which this circuit is switched on and off Conveyor organ is arranged, consists, characterized in that in known Way, the flow resistance of the heat exchanger circuit (4) when switched on is considerably lower and in the switched-off state is selected to be considerably higher than that of the cooler circuit (2), with below Omission of valves the cooling medium essentially when the conveyor element (6) is switched on is transported through the heat exchanger circuit (4) and when the conveyor element (6) is switched off flows through the cooler circuit (2). / Ί I71_l_ * "U ***. U..t -. »AMt» nnU Λ n * n - tr * \ y 1 An £ .. L ~ 1CHL113 (.11CO liui ^ gt.iat ιι «Λ.ιι /-iiiopiuv.il ι, \ ju * characterized in that the connections in the cooling circuit (7,8) of the cooler circuit (2) and the heat exchanger circuit (4) as concentric Lines are formed.