CN212209161U - Energy-saving amorphous alloy transformer - Google Patents

Abstract

The utility model relates to the technical field of transformer correlation, in particular to an energy-saving amorphous alloy transformer, which comprises an outer shell and a base arranged below the outer shell, wherein the base is a rectangular base, the interior of the base is a hollow cavity structure, the outer shell is a rectangular frame structure, the lower surface of the outer shell is connected with the upper surface of the base, the connection mode of the outer shell and the base is fixed welding, and the upper end of the outer shell is fixedly welded with a mounting seat; the transformer comprises a transformer shell and is characterized in that a hollow base with a water storage cavity is arranged at the lower end of the transformer shell, a transverse heating plate and a longitudinal heating plate are respectively arranged on the transverse side wall and the longitudinal side wall of the outer shell, a water guide cavity is arranged in plate bodies of the transverse heating plate and the longitudinal heating plate, the water storage cavity in the water guide cavity and the base are set to be communicated, and therefore heat generated by the transformer in the daytime during peak power utilization is absorbed through water in the water storage cavity, and the working temperature of the transformer is effectively reduced.

Description

Energy-saving amorphous alloy transformer

Technical Field

The utility model relates to a relevant technical field of transformer specifically is energy-saving metallic glass transformer.

Background

The amorphous alloy transformer is a low-loss and high-energy-efficiency power transformer. The transformer uses iron-based amorphous metal as an iron core, and because the material has no long-range ordered structure, the material is easier to magnetize and demagnetize than common magnetic materials. Therefore, the iron loss (i.e., no-load loss) of the amorphous alloy transformer is 70-80% lower than that of the conventional transformer using silicon steel as the iron core. Because the loss is reduced, the power generation requirement is also reduced, and the emission of greenhouse gases such as carbon dioxide is also reduced correspondingly. Based on the factors of energy supply and environmental protection, amorphous alloy transformers are widely adopted in China, India and other large-scale developing countries; but amorphous alloy transformer can produce a large amount of heats at the during operation, especially in summer power consumption peak period, and its heat production is more serious to because weather reason, its natural radiating efficiency is lower, thereby leads to the transformer to be in high temperature operational environment for a long time, thereby the ageing of electrical property original paper in the transformer with higher speed, thereby its maintenance cost has been increased, and high temperature environment can lead to the transformer during operation energy loss more serious, thereby causes the unnecessary loss of the energy, for this reason, the utility model provides an energy-saving amorphous alloy transformer is used for solving above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-saving metallic glass transformer to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an energy-saving amorphous alloy transformer comprises an outer shell and a base arranged below the outer shell, wherein the base is a rectangular base body, the interior of the base body is of a hollow cavity structure, the outer shell is of a rectangular frame structure, the lower surface of the outer shell is connected with the upper surface of the base, the lower surface of the outer shell and the upper surface of the base are fixedly welded, the upper end of the outer shell is fixedly welded with a mounting seat, the mounting seat is of a frame structure, an adjusting cavity is formed in the mounting seat, the upper end of the mounting seat is of a closed structure, bolt holes are formed in the upper surface of the mounting seat, the bolt holes and the cavity of the adjusting cavity are arranged in a staggered mode, a top plate is arranged on the upper surface of the mounting seat, mounting holes are formed in the top plate, the positions of the mounting holes correspond to the positions of the bolt holes in the mounting seat, and, and a transformer is fixedly arranged in the inner cavity of the outer shell, and a transverse heat dissipation plate and a longitudinal heat dissipation plate are arranged on the transverse side wall and the longitudinal side wall of the outer shell through integral casting molding.

Preferably, the transverse heat dissipation plates and the longitudinal heat dissipation plates are arranged in the outer shell in the transverse direction and the longitudinal direction at equal intervals, the transverse heat dissipation plates are of rectangular plate structures, water guide cavities are formed in plate bodies of the transverse heat dissipation plates, the longitudinal heat dissipation plates are identical to the transverse heat dissipation plates in structure, and the longitudinal heat dissipation plates and the transverse heat dissipation plates are internally provided with identical water guide cavity structures.

Preferably, the lower end of the water guide cavity is communicated with a water storage cavity arranged in the base, a drainage pipeline is arranged on one side of the base, and a drainage pipeline valve is arranged at the end part of the pipeline.

Preferably, the upper end of the water guide cavity is communicated with the cavity of the adjusting cavity in the mounting seat, a water inlet pipeline is arranged on one side of the mounting seat, a water inlet pipeline valve is arranged at the end of the water inlet pipeline, and when the device is in actual use, clear water is injected into the water storage cavity, the water guide cavity and the adjusting cavity, and the injection height of the clear water in the adjusting cavity is one half of the depth of the cavity of the adjusting cavity.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the lower end of the transformer shell is provided with the hollow base with the water storage cavity, the transverse side wall and the longitudinal side wall of the outer shell are respectively provided with the transverse heat dissipation plate and the longitudinal heat dissipation plate, the water guide cavities are arranged in the plate bodies of the transverse heat dissipation plate and the longitudinal heat dissipation plate, and the water guide cavities and the water storage cavities in the base are set to be communicated, so that heat generated by the transformer in the daytime during the peak electricity utilization period is absorbed through water in the water storage cavities, the temperature during the work of the transformer is effectively reduced, the heat absorbed by the water can be naturally dissipated at night with lower temperature and in the valley electricity utilization period, the transformer is energy-saving and environment-friendly, and the service life of the transformer is effectively prolonged;

2. the mounting seat is arranged at the upper end of the outer shell, the adjusting cavity is arranged in the mounting seat, and when clean water is injected into the mounting seat, the injection height of the clean water is half of the depth of the adjusting cavity, so that the heat of the water body is prevented from causing cold contraction to cause the water body to be incapable of completely submerging the water guide cavity to influence the heat absorption efficiency of the water body, and the water body is prevented from expanding to damage cavity structures such as the water storage cavity, the water guide cavity and the adjusting cavity.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a horizontal half-sectional view of the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2;

FIG. 4 is a vertical half-sectional view of the present invention;

fig. 5 is an enlarged view of the structure at B in fig. 4.

In the figure: the heat-dissipating device comprises an outer shell 1, a base 2, a transverse heat-dissipating plate 3, a longitudinal heat-dissipating plate 4, a mounting seat 5, a top plate 6, a transformer 7, a water guide cavity 8, a regulating cavity 9, a water inlet pipeline 10 and a drainage pipeline 11.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an energy-saving amorphous alloy transformer comprises an outer shell 1 and a base 2 arranged below the outer shell 1, wherein the base 2 is a rectangular base body, the interior of the base body is of a hollow cavity structure, the outer shell 1 is of a rectangular frame structure, the lower surface of the outer shell is connected with the upper surface of the base 2, the connection mode of the outer shell 1 and the base is fixed and welded, the upper end of the outer shell 1 is fixedly welded with an installation base 5, the installation base 5 is of a frame-shaped structure, an adjusting cavity 9 is formed in the installation base, the upper end of the installation base is of a closed structure, a bolt hole is formed in the upper surface of the installation base 5, the bolt hole and the cavity of the adjusting cavity 9 are arranged in a staggered mode, a top plate 6 is arranged on the upper surface of the installation base 5, an installation hole is formed in the top plate 6, the position of the installation hole corresponds to the position of the bolt hole in the, and a transformer 7 is fixedly arranged in the inner cavity of the outer shell 1, and a transverse heat dissipation plate 3 and a longitudinal heat dissipation plate 4 are integrally cast and formed on the transverse side wall and the longitudinal side wall of the outer shell 1.

Furthermore, a plurality of groups of transverse heat dissipation plates 3 and longitudinal heat dissipation plates 4 are arranged in the transverse direction and the longitudinal direction of the outer shell 1 at equal intervals, the transverse heat dissipation plates 3 are of rectangular plate structures, water guide cavities 8 are formed in plate bodies of the transverse heat dissipation plates, the longitudinal heat dissipation plates 4 are identical to the transverse heat dissipation plates 3 in structure, and the longitudinal heat dissipation plates and the transverse heat dissipation plates 3 are internally provided with identical water guide cavity structures;

furthermore, the lower end of the water guide cavity 8 is communicated with a water storage cavity arranged in the base 2, a drainage pipeline 11 is arranged on one side of the base, a drainage pipeline valve is arranged at the end part of the pipeline, the hollow base 2 with the water storage cavity is arranged at the lower end of the transformer outer shell 1, the transverse side wall and the longitudinal side wall of the outer shell 1 are respectively provided with the transverse heat dissipation plate 3 and the longitudinal heat dissipation plate 4, the water guide cavity 8 is arranged in the plate bodies of the transverse heat dissipation plate 3 and the longitudinal heat dissipation plate 4, and the water guide cavity 8 is communicated with the water storage cavity 2 in the base 2, so that heat generated by the transformer in the daytime during the peak period of power consumption is absorbed by water in the water storage cavity, the working temperature of the transformer is effectively reduced, and the heat absorbed by the water can be naturally dissipated at night with lower temperature and during the valley period of power consumption, the transformer is very energy-saving and environment-friendly, and the service life of the transformer is effectively prolonged;

furthermore, the upper end of the water guide cavity 8 is communicated with the cavity of the adjusting cavity 9 in the mounting seat 5, a water inlet pipeline 10 is arranged on one side of the mounting seat 5, a water inlet pipeline valve is arranged at the end part of the water inlet pipeline 10, and when the device is in actual use, clean water is injected into the water storage cavity, the water guide cavity 8 and the adjusting cavity 9, the injection height of the clean water in the adjusting cavity 9 is one half of the depth of the cavity of the adjusting cavity 9, the mounting seat 5 is arranged at the upper end of the outer shell 1, the adjusting cavity 9 is arranged in the mounting seat 5, and when the clean water is injected into the mounting seat, the injection height of the clean water is ensured to be one half of the depth of the adjusting cavity 9, so that the heat shrinkage of the water body caused by the heat of the water body cannot completely sink the water cavity 8 to influence the heat absorption efficiency of the water body, and the water body structures such as the water storage;

the working principle is as follows: when the transformer 7 is actually used, when the electricity consumption peak period is in the daytime, a large amount of heat generated by the working of the transformer 7 can be naturally radiated through the transverse heat radiation plate 3 and the longitudinal heat radiation plate 4 on the outer shell 1, and the heat generated by the transformer is absorbed in an auxiliary manner through the water in the water guide cavity 8 in the plate bodies of the transverse heat radiation plate 3 and the longitudinal heat radiation plate 4, so that the heat absorbed by the water in the water guide cavity 8 can be subjected to temperature exchange with the water in the water storage cavity, the temperature in the water guide cavity 8 can not rise too fast, when the night comes, the external temperature of the transformer can be reduced, the heat generated by the transformer 7 in the electricity consumption valley period is reduced, the heat absorbed by the water in the water guide cavity 8 and the water in the water storage cavity can be naturally radiated, and when the electricity consumption peak period comes next day, the water can perform the auxiliary heat radiation effect on the transformer 7 again, thereby the operational environment temperature that keeps transformer 7 can obtain effectual reduction to prevent that it from being in under high temperature operational environment for a long time and leading to the ageing of its inside electrical property original paper, thereby increase its later maintenance cost.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. Energy-saving metallic glass transformer, including shell body (1) and base (2) of setting in shell body (1) below, its characterized in that: the base (2) is a rectangular base body, the interior of the base body is a hollow cavity structure, the outer shell body (1) is a rectangular frame structure, the lower surface of the outer shell body is connected with the upper surface of the base (2), the connection mode of the base body and the base body is fixed welding, the upper end of the outer shell body (1) is fixedly welded with the mounting seat (5), the mounting seat (5) is of a frame structure, an adjusting cavity (9) is formed in the mounting seat (5), the upper end of the mounting seat is of a closed structure, the upper surface of the mounting seat (5) is provided with a bolt hole, the bolt hole and the cavity of the adjusting cavity (9) are arranged in a staggered mode, the upper surface of the mounting seat (5) is provided with a top plate (6), the top plate (6) is provided with a mounting hole, the position of the mounting hole corresponds to the position of the bolt hole on the mounting seat (5), and the top plate (6) is fixedly installed on, and a transformer (7) is fixedly installed in the inner cavity of the outer shell (1), and a transverse heat dissipation plate (3) and a longitudinal heat dissipation plate (4) are arranged on the transverse side wall and the longitudinal side wall of the outer shell (1) through integral casting molding.

2. The energy-saving amorphous alloy transformer of claim 1, wherein: the transverse radiating plate (3) and the longitudinal radiating plate (4) are arranged in the outer shell (1) at equal intervals in the transverse direction and the longitudinal direction, the transverse radiating plate (3) is of a rectangular plate structure, a water guide cavity (8) is formed in a plate body of the transverse radiating plate, the longitudinal radiating plate (4) is identical to the transverse radiating plate (3) in structure, and the same water guide cavity structure is formed in the longitudinal radiating plate.

3. The energy-saving amorphous alloy transformer of claim 2, wherein: the lower end of the water guide cavity (8) is communicated with a water storage cavity arranged in the base (2), a drainage pipeline (11) is arranged on one side of the base, and a drainage pipeline valve is arranged at the end part of the pipeline.

4. The energy-saving amorphous alloy transformer of claim 2, wherein: the upper end of the water guide cavity (8) is communicated with the cavity of the adjusting cavity (9) in the mounting seat (5), a water inlet pipeline (10) is arranged on one side of the mounting seat (5), a water inlet pipeline valve is arranged at the end of the water inlet pipeline (10), and when the device is in actual use, clear water is injected into the water storage cavity, the water guide cavity (8) and the adjusting cavity (9), and the injection height of the clear water in the adjusting cavity (9) is half of the cavity depth of the adjusting cavity (9).

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