JPH0749772Y2 - Gas insulated transformer - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to a gas insulated transformer.

(Prior Art) As is well known, a gas-insulated transformer is composed of a tank that houses a transformer body and a radiator that cools the insulating gas sealed in the tank. In the case of such a configuration, in order to reduce the installation area,
A radiator is installed on the top of the tank.

FIG. 3 shows a conventional example thereof, in which a transformer main body 3 including an iron core 1 and a winding wire 2 is housed in a tank 4 in which an insulating gas such as SF ₆ gas is sealed. 5 is a radiator, tank 4
It is installed at the top of the. The inlet 6 of the radiator 5 is connected to the upper side of the tank 4 via a gas conduit 8, and the outlet 7 is connected to the tank via a gas conduit 9 also provided for tank reinforcement. 4 communicates with the lower part.

In this configuration, the insulating gas that has cooled the transformer body 3 enters the inlet 6 of the radiator 5 through the gas conduit 8, is cooled there, and is then discharged through the outlet 7. Then, it returns to the tank 4 again through the gas conduit 9.

(Problems to be Solved by the Invention) By the way, the inlet 6 and the outlet 7 of the radiator 5 in such a conventional configuration are installed on the same wall surface side of the radiator.

As is well known, this type of radiator is configured by arranging a plurality of panels in which insulating gas, which is a fluid to be cooled, flows. The upper end is collectively connected to the introduction port 6, and the lower end is collectively connected to the discharge port 7.

Therefore, the further the panel is located from the wall surface where the inlet 6 and the outlet 7 are installed, the greater the fluid resistance to the gas flow. As a result, the gas flow distribution becomes non-uniform and the heat dissipation effect is impaired.

Further, as shown in FIG. 3, when the gas conduit 9 is also installed to reinforce the tank 4, when the gas returned from the radiator 5 passes through the gas conduit 9, it is affected by the heat of the upper part of the tank 4. The flow may be poor.

This invention aims at making the gas flow distribution in the radiator uniform and smoothing the flow of the insulating gas.

(Means for Solving the Problem) This invention provides an inlet and an outlet of a radiator installed on the upper part of a tank at diagonal positions of the radiator, and a heat insulating material on the side wall of the tank. A gas flow passage is formed, and the insulating gas cooled by the radiator is returned to the inside of the tank through the gas flow passage.

(Operation) The upper end of each panel in the radiator is communicated with the inlet at one diagonal position, and the lower end of each panel is communicated with the outlet at the other diagonal position. Therefore, the gas introduced from the introduction port flows to all the panels almost uniformly and goes to the discharge port. As a result, the gas flow distribution is substantially uniform within the radiator.

Moreover, since the insulating gas cooled by the gas conduit formed through the heat insulating material is returned to the tank,
The influence of heat is avoided and the flow of insulating gas is not impaired.

(Embodiment) An embodiment of the present invention will be described with reference to FIG. The third
Portions with the same reference numerals as those in the figure indicate the same or corresponding portions. According to this invention, the inlet 6 and the outlet 7 of the radiator 5 are provided at diagonal positions.

Specifically, the inlet 6 is provided on one side wall 10 of the radiator 5, and the outlet 7 is the other side wall facing the side wall 10.
It is provided below 11.

In this way, the insulating gas that has entered the inside of the tank 4 through the gas conduit 8 and the inlet 6 of the radiator 5 flows uniformly over almost all of the panels for heat radiation arranged in parallel inside. become. The insulating gas that has passed through each panel is
It returns from the discharge port 7 to the tank 4 through the gas conduit 9.

In addition, the heat insulating material 13 is arranged facing the side wall 12 of the tank 4,
A gas flow passage 14 is formed, the upper end of the gas flow passage 14 is communicated with the gas conduit 9, and the lower end of the gas flow passage 14 is
It should be opened below the tank 4.

By doing so, when the insulating gas cooled by the radiator 5 returns to the tank 4, it may be affected by the heat from the transformer main body 3 and the flow thereof may deteriorate in the process of reaching the lower side thereof. Will be avoided by this.

2A is a sectional view taken along the line AA of FIG. Instead of this structure, as shown in FIG. 2B, the L-shaped member 15 may be provided inside the side wall 12 and the heat insulating material 13 may be provided outside the L-shaped member 15 to form the gas flow passage 14. .

Alternatively, as shown in FIG. 2 (c), a pipe material 16 may be attached to the outside of the side wall 12 to form a gas flow passage 14, and a heat insulating material 13 may be provided inside thereof.

(Effect of the Invention) As described in detail above, according to the present invention, the gas flow distribution in the panel of the radiator can be made uniform, so that the heat radiation effect can be enhanced and the heat from the transformer body can be absorbed. The effect of avoiding the influence and smoothing the flow of the insulating gas can be obtained.

[Brief description of drawings]

FIG. 1 is a front view showing an embodiment of the present invention, and FIG. 2 is a first view.
FIG. 3 is a sectional view taken along the line AA in the figure, and FIG. 3 is a front view of a conventional example. 3 ... Transformer body, 4 ... Tank, 5 ... Radiator, 6 ...
… Inlet, 7 …… Outlet, 8,9 …… Gas conduit, 12 …… Tank side wall, 13 …… Insulation material, 14 …… Gas flow passage,

Claims (1)

[Scope of utility model registration request] 1. A gas-insulated transformer comprising a transformer main body housed in a tank in which an insulating gas is sealed, wherein a radiator for cooling the insulating gas is installed above the tank, and An inlet and an outlet of the radiator are provided at diagonal positions of the radiator, the inlet and the outlet are communicated with the tank via a gas conduit, and a heat insulating material is provided on a side wall of the tank. Forming a gas flow path, the upper end of the gas flow path is connected to a gas conduit communicating with the discharge port of the radiator, and the lower end is opened below the tank.