CN217444199U - Capacity increasing device for transformer - Google Patents

Abstract

The utility model provides a increase-volume device for transformer belongs to transformer technical field. Including base and fixed mounting in the transformer body of base upper end, the equal fixedly connected with heat dissipation lateral plate of both sides wall of transformer body, the outside symmetry of transformer body is provided with two U-shaped heat dissipation water pipes, the heat dissipation opening has been seted up to the side of heat dissipation lateral plate, U-shaped heat dissipation water pipe pass the heat dissipation opening run through in the heat dissipation lateral plate, the outside surface contact of U-shaped heat dissipation water pipe in the inboard surface of heat dissipation opening, the upper end of base is close to one side fixed mounting of transformer body has the heat dissipation water tank, the utility model discloses can improve the radiating efficiency who absorbs the transformer body for the heat that produces can distribute fast when transformer body moves, effectively prevent that the output capacity of transformer body from appearing reducing the phenomenon by a wide margin easily, guarantee the increase-volume effect of transformer body.

Description

Capacity increasing device for transformer

Technical Field

The utility model relates to a transformer technical field specifically is a increase-volume device for transformer.

Background

The transformer is a device for changing alternating voltage by using the principle of electromagnetic induction, and the main components of the transformer are a primary coil, a secondary coil and an iron core (magnetic core), and the transformer has the following main functions: voltage conversion, current conversion, impedance conversion, isolation, voltage stabilization (magnetic saturation transformer), and the like, and can be classified into: power transformers and special transformers, transformers are basic equipment for power transmission and distribution.

However, in the conventional transformer, when the temperature of the transformer is high or the load is large, the output capacity of the transformer is easily reduced greatly due to the difficulty in rapid dissipation of generated heat, so that a capacity increasing device for the transformer is disclosed to meet the needs of people.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a capacity-increasing device for transformer to provide traditional transformer in solving above-mentioned background art and in the operation process under the high or load great condition of ambient temperature, because the heat that produces is difficult to give off fast, when leading to the transformer temperature higher, the output capacity of transformer appears the problem of phenomenon by a wide margin easily.

The technical scheme of the utility model is that: a capacity increasing device for a transformer comprises a base and a transformer body fixedly arranged at the upper end of the base, wherein both side walls of the transformer body are fixedly connected with radiating side pieces, two U-shaped radiating water pipes are symmetrically arranged at the outer side of the transformer body, radiating through holes are formed in the side surfaces of the radiating side pieces, the U-shaped radiating water pipes penetrate through the radiating side pieces through the radiating through holes, the outer side surfaces of the U-shaped radiating water pipes are contacted with the inner side surfaces of the radiating through holes, a radiating water tank is fixedly arranged at one side, close to the transformer body, of the upper end of the base, a refrigerating fan is fixedly arranged at one end of the base, a water suction pump is fixedly arranged in the radiating water tank, one end of each U-shaped radiating water pipe is fixedly communicated with the top side with the radiating water tank, and the other end of each U-shaped radiating water pipe is fixedly communicated with a water outlet port of the water suction pump, the air outlet port of the refrigerating fan is fixedly communicated with a ventilation pipe, one end of the ventilation pipe is fixedly communicated with an air guide pipe, two induced air pipes are symmetrically and fixedly communicated above the U-shaped heat dissipation water pipe on the side surface of the air guide pipe, and a plurality of air outlets are formed in the bottom surface of each induced air pipe at intervals.

Preferably, the air outlet is linear equidistant interval distribution and is arranged, and the cross-sectional shape of the air outlet is rectangular.

Preferably, the upper end of the heat radiation water tank is fixedly communicated with a water inlet pipe, and the upper end of the water inlet pipe is in threaded connection with a sealing cover.

Preferably, the top surface of the heat dissipation water tank is fixedly arranged below the induced draft pipe and is fixedly connected with a plurality of heat dissipation top sheets at intervals.

Preferably, the heat dissipation side plate, the U-shaped heat dissipation water pipe, the heat dissipation water tank and the heat dissipation top plate are all members made of copper.

Preferably, the surface of the base is provided with mounting holes, and the mounting holes are distributed at four ends of the surface of the base.

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

the utility model discloses a heat that produces when heat dissipation lateral plate absorbs transformer body moves, the heat of heat dissipation lateral plate can be absorbed to the cold water of flow in the U-shaped heat dissipation water pipe, the wind gas that will produce through the refrigeration fan blows to the heat dissipation lateral plate through the air outlet, U-shaped heat dissipation water pipe and heat dissipation top plate, can cool down to the cold water in the heat dissipation water tank, and make the heat dissipation lateral plate, U-shaped heat dissipation water pipe dispels the heat fast with the heat dissipation top plate, improve the radiating efficiency who absorbs transformer body, make the heat that produces when transformer body moves distribute fast, effectively prevent that the output capacity of transformer body from appearing reducing the phenomenon by a wide margin easily, guarantee the increase-volume effect of transformer body.

Drawings

The invention is further explained below with reference to the figures and examples:

fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic sectional view of the present invention;

fig. 3 is a schematic side view of the present invention.

Description of reference numerals: 1. a base; 11. mounting holes; 2. a transformer body; 21. a heat-dissipating side sheet; 22. a heat dissipation port; 3. a U-shaped heat dissipation water pipe; 4. a heat radiation water tank; 41. a heat-dissipating top sheet; 42. a water inlet pipe; 43. a water pump; 5. a refrigeration fan; 51. a vent pipe; 52. an air guide pipe; 53. an induced draft pipe; 54. and (7) air outlet.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the embodiments of the present invention are only some embodiments of the present invention, rather than 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. 1-3, the utility model provides a capacity increasing device for a transformer, which comprises a base 1 and a transformer body 2 fixedly arranged on the upper end of the base 1, both side walls of the transformer body 2 are fixedly connected with heat dissipation side plates 21, two U-shaped heat dissipation water pipes 3 are symmetrically arranged on the outer side of the transformer body 2, heat dissipation through holes 22 are arranged on the side surfaces of the heat dissipation side plates 21, the U-shaped heat dissipation water pipes 3 penetrate through the heat dissipation through holes 22 to penetrate through the heat dissipation side plates 21, the outer side surfaces of the U-shaped heat dissipation water pipes 3 are contacted with the inner side surfaces of the heat dissipation through holes 22, a heat dissipation water tank 4 is fixedly arranged on one side of the upper end of the base 1 close to the transformer body 2, a refrigeration fan 5 is fixedly arranged on one end of the base 1, a water suction pump 43 is fixedly arranged inside the heat dissipation water tank 4, one end of the U-shaped heat dissipation water pipes 3 is fixedly communicated with the top side of the heat dissipation water tank 4, the other end of the U-shaped heat dissipation water pipes 3 is fixedly communicated with a water outlet port of the suction pump 43, a vent pipe 51 is fixedly communicated with an air outlet port of the refrigeration fan 5, one end of the vent pipe 51 is fixedly communicated with an air guide pipe 52, two air guide pipes 53 are symmetrically and fixedly communicated with the side surface of the air guide pipe 52 above the U-shaped heat dissipation water pipe 3, and a plurality of air outlets 54 are formed in the bottom surface of each air guide pipe 53 at intervals.

As a preferred embodiment in this embodiment, as shown in fig. 2, the air outlets 54 are arranged in a linear and equidistant manner, and the cross-sectional shape of the air outlet 54 is a rectangle.

As a preferred embodiment in this embodiment, as shown in fig. 1, a water inlet pipe 42 is fixedly communicated with the upper end of the heat radiation water tank 4, and a sealing cover is screwed on the upper end of the water inlet pipe 42, so as to achieve the purpose of sealing the water inlet pipe 42.

As a preferred embodiment in this embodiment, as shown in fig. 1, a plurality of heat dissipation top plates 41 are fixedly connected to the top surface of the heat dissipation water tank 4, which is fixedly located below the induced duct 53 at intervals.

As a preferred embodiment in this embodiment, as shown in fig. 1, the side radiating sheet 21, the U-shaped radiating water pipe 3, the radiating water tank 4, and the radiating top sheet 41 are made of copper.

As a preferred embodiment in this embodiment, as shown in fig. 1, mounting holes 11 are formed in the surface of the base 1, and the mounting holes 11 are distributed at four ends of the surface of the base 1, so as to achieve the purpose of fixedly mounting the base 1.

The working principle is as follows:

in the using process, cold water in the heat dissipation water tank 4 is pumped into one end of the U-shaped heat dissipation water pipe 3 through the water suction pump 43, the cold water finally flows back into the heat dissipation water tank 4 through the other end of the U-shaped heat dissipation water pipe 3, the cold water continuously flows in the U-shaped heat dissipation water pipe 3, the heat generated when the transformer body 2 operates is absorbed by the heat dissipation side piece 21, the heat of the heat dissipation side piece 21 can be absorbed by the cold water flowing in the U-shaped heat dissipation water pipe 3, the generated air is led to the air guiding pipe 53 through the air cooling fan 5 through the air guiding pipe 51 and the air guiding pipe 52, the air is finally blown to the heat dissipation side piece 21 and the U-shaped heat dissipation water pipe 3 and the heat dissipation top piece 41 through the air outlet 54 on the air guiding pipe 53, the cold water in the heat dissipation water tank 4 can be cooled, and the heat dissipation side piece 21, the U-shaped heat dissipation water pipe 3 and the heat dissipation top piece 41 are enabled to dissipate heat quickly.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. A capacity-increasing device for a transformer comprises a base (1) and a transformer body (2) fixedly installed at the upper end of the base (1), and is characterized in that: the transformer comprises a transformer body (2), and is characterized in that two heat dissipation side pieces (21) are fixedly connected to two side walls of the transformer body (2), two U-shaped heat dissipation water pipes (3) are symmetrically arranged on the outer side of the transformer body (2), heat dissipation through holes (22) are formed in the side surfaces of the heat dissipation side pieces (21), the U-shaped heat dissipation water pipes (3) penetrate through the heat dissipation side pieces (21) through the heat dissipation through holes (22), the outer side surfaces of the U-shaped heat dissipation water pipes (3) are in contact with the inner side surfaces of the heat dissipation through holes (22), a heat dissipation water tank (4) is fixedly installed on one side, close to the transformer body (2), of the upper end of a base (1), a refrigerating fan (5) is fixedly installed at one end of the base (1), a water suction pump (43) is fixedly installed inside the heat dissipation water tank (4), one end of each U-shaped heat dissipation water pipe (3) is fixedly communicated with the top side of the heat dissipation water tank (4), the other end of the U-shaped heat dissipation water pipe (3) is fixedly communicated with a water outlet port of the water suction pump (43), an air outlet port of the refrigerating fan (5) is fixedly communicated with a ventilation pipe (51), one end of the ventilation pipe (51) is fixedly communicated with an air guide pipe (52), the side face of the air guide pipe (52) is positioned above the U-shaped heat dissipation water pipe (3) and is symmetrically and fixedly communicated with two air guide pipes (53), and a plurality of air outlets (54) are formed in the bottom face of the air guide pipes (53) at intervals.

2. A capacity-increasing device for a transformer according to claim 1, characterized in that: the air outlet (54) is arranged in a linear equidistant interval distribution mode, and the cross section of the air outlet (54) is rectangular.

3. A capacity-increasing device for a transformer according to claim 1, characterized in that: the upper end of the heat radiation water tank (4) is fixedly communicated with a water inlet pipe (42), and the upper end of the water inlet pipe (42) is in threaded connection with a sealing cover.

4. A capacity-increasing device for a transformer according to claim 1, characterized in that: the top surface of the heat dissipation water tank (4) is fixedly arranged below the induced draft pipe (53) and is fixedly connected with a plurality of heat dissipation top plates (41) at intervals.

5. A capacity-increasing device for a transformer according to claim 4, wherein: the heat dissipation side piece (21), the U-shaped heat dissipation water pipe (3), the heat dissipation water tank (4) and the heat dissipation top piece (41) are all members made of copper.

6. A capacity-increasing device for transformers according to claim 1, characterized in that: mounting holes (11) are formed in the surface of the base (1), and the mounting holes (11) are distributed at four ends of the surface of the base (1).

Images