CN204167053U - A kind of transformer cooling device - Google Patents

Abstract

The utility model discloses a kind of transformer cooling device to comprise: described transformer upper and lower end face is respectively provided with a coldplate, described transformer two sides are equipped with a blower fan, described fan casing is connected with the bottom of cone-shaped hood, the top of described cone-shaped hood is connected with supervisor one end, described supervisor's other end is communicated with the middle part of arm, described tube-surface is provided with N number of connecting hole, N number of exhaust duct is communicated with between described 2 arms, described exhaust duct two ends are communicated with the described connecting hole of described 2 arms respectively, described exhaust duct surface is provided with M exhaust outlet, described two blower fans are all connected with storage battery, described storage battery is connected with solar cell array and wind turbine generator, achieve transformer cooling device reasonable in design, transformer cooling device is utilized to carry out cooling to transformer, radiating and cooling effect is better, ensure the technique effect of the safety of transformer.

Description

A kind of transformer cooling device

Technical field

The utility model relates to controller switching equipment research field, particularly relates to a kind of transformer cooling device.

Background technology

Transformer utilizes mutual inductance principle.Transformer utilizes the principle of electromagnetic induction to change the device of alternating voltage, and main member is primary coil, secondary coil and iron core (magnetic core).Major function has: voltage transformation, current transformation, impedance transformation, isolation, voltage stabilizing (magnetic saturation transformer) etc.Can be divided into by purposes: distribution transformer, power transformer, full-sealed transformer, combined transformer, dry-type transformer, oil-filled transformer, single-phase transformer, furnace transformer, rectifier transformer etc.

Transformer is in electric equipment and radio-circuit, and transformer is commonly used for buck/boost, matched impedance, Secure isolation etc.Therefore transformer is particularly important for electric power system, because transformer operationally will produce a large amount of heat energy, easily causes transformer overheated, and then causes transformer damage, cause economic loss and security incident.

In sum, present inventor, in the process realizing utility model technical scheme in the embodiment of the present application, finds that above-mentioned technology at least exists following technical problem:

In the prior art, because transformer operationally will produce a large amount of heat energy, easily cause transformer overheated, and then cause transformer damage, cause economic loss and security incident, so, it is unreasonable to there is structural design in transformer of the prior art, radiating effect is poor, easily causes transformer damage, causes the technical problem of economic loss and security incident.

Utility model content

The utility model provides a kind of transformer cooling device, solving transformer of the prior art, to there is structural design unreasonable, radiating effect is poor, easily cause transformer damage, cause the technical problem of economic loss and security incident, achieve transformer cooling device reasonable in design, utilize transformer cooling device to carry out cooling to transformer, radiating and cooling effect is better, has ensured the technique effect of the safety of transformer.

For solving the problems of the technologies described above, the embodiment of the present application provides a kind of transformer cooling device, and described device comprises:

Described transformer upper and lower end face is respectively provided with a coldplate, described coldplate is built with cooling water, described transformer horizontal direction left and right sides are equipped with a blower fan, described fan casing is connected with the bottom of cone-shaped hood, the top of described cone-shaped hood is connected with supervisor one end, described supervisor's other end is communicated with the middle part of arm, described arm two ends are sealing shape, described tube-surface is provided with N number of connecting hole, N number of exhaust duct is communicated with between described 2 arms, described exhaust duct two ends are communicated with the described connecting hole of described 2 arms respectively, described exhaust duct surface is provided with M exhaust outlet, described N, M is the positive integer being more than or equal to 1, described N number of exhaust duct is evenly distributed on described transformer surrounding, described two blower fans are all connected with storage battery, described storage battery is connected with solar cell array and wind turbine generator.

Wherein, described transformer horizontal direction left and right sides are equipped with a support, and described support is provided with chute, and described coldplate is connected with described bracket slide by pulley.

Wherein, described N number of connecting hole is evenly distributed on a described tube-surface, and a described M exhaust outlet is evenly distributed on described exhaust duct surface.

Wherein, described fan casing and described cone-shaped hood junction, described cone-shaped hood and described supervisor junction, described supervisor and described arm junction, described arm and described exhaust duct junction are equipped with sealing ring.

Wherein, described predominant tube diameter is greater than described arm diameter, and described arm diameter is greater than described exhaust duct diameter, and described exhaust duct is specially flexible pipe.

The one or more technical schemes provided in the embodiment of the present application, at least have following technique effect or advantage:

Owing to have employed, transformer cooling device is designed to comprise: described transformer upper and lower end face is respectively provided with a coldplate, described coldplate is built with cooling water, described transformer horizontal direction left and right sides are equipped with a blower fan, described fan casing is connected with the bottom of cone-shaped hood, the top of described cone-shaped hood is connected with supervisor one end, described supervisor's other end is communicated with the middle part of arm, described arm two ends are sealing shape, described tube-surface is provided with N number of connecting hole, N number of exhaust duct is communicated with between described 2 arms, described exhaust duct two ends are communicated with the described connecting hole of described 2 arms respectively, described exhaust duct surface is provided with M exhaust outlet, described N, M is the positive integer being more than or equal to 1, described N number of exhaust duct is evenly distributed on described transformer surrounding, described two blower fans are all connected with storage battery, the technical scheme that described storage battery is connected with solar cell array and wind turbine generator, namely transformer cooling device is utilized to carry out supplement heat rejecter heat radiation to transformer, the institute of cooling water section in coldplate is utilized to carry out heat exchange to transformer, unnecessary heat is shifted, and then transformer is lowered the temperature, blower fan is utilized to produce flowing wind, then respectively by supervisor, arm, exhaust duct, blow finally by the exhaust outlet on exhaust duct and think transformer, transformer is dispelled the heat, owing to being that multiple exhaust duct is evenly distributed on transformer surrounding, and exhaust duct is provided with multiple exhaust outlet, therefore Homogeneouslly-radiating can be carried out to the surface of transformer, ensure all can dispel the heat in each position, radiating effect is better, so, efficiently solving transformer of the prior art, to there is structural design unreasonable, radiating effect is poor, easily cause transformer damage, cause the technical problem of economic loss and security incident, and then it is reasonable in design to achieve transformer cooling device, transformer cooling device is utilized to carry out cooling to transformer, radiating and cooling effect is better, ensure the technique effect of the safety of transformer.

Accompanying drawing explanation

Fig. 1 is the structural representation of transformer cooling device in the embodiment of the present application one;

Wherein, 1-transformer, 2-coldplate, 3-blower fan, 4-cone-shaped hood, 5-is responsible for, 6-arm, 7-exhaust duct, 8-exhaust outlet, 9-storage battery, 10-solar cell array, 11-wind turbine generator, 12-support.

Embodiment

The utility model provides a kind of transformer cooling device, solving transformer of the prior art, to there is structural design unreasonable, radiating effect is poor, easily cause transformer damage, cause the technical problem of economic loss and security incident, achieve transformer cooling device reasonable in design, utilize transformer cooling device to carry out cooling to transformer, radiating and cooling effect is better, has ensured the technique effect of the safety of transformer.

Technical scheme during the application implements is for solving the problems of the technologies described above.General thought is as follows:

Have employed and transformer cooling device is designed to comprise: described transformer upper and lower end face is respectively provided with a coldplate, described coldplate is built with cooling water, described transformer horizontal direction left and right sides are equipped with a blower fan, described fan casing is connected with the bottom of cone-shaped hood, the top of described cone-shaped hood is connected with supervisor one end, described supervisor's other end is communicated with the middle part of arm, described arm two ends are sealing shape, described tube-surface is provided with N number of connecting hole, N number of exhaust duct is communicated with between described 2 arms, described exhaust duct two ends are communicated with the described connecting hole of described 2 arms respectively, described exhaust duct surface is provided with M exhaust outlet, described N, M is the positive integer being more than or equal to 1, described N number of exhaust duct is evenly distributed on described transformer surrounding, described two blower fans are all connected with storage battery, the technical scheme that described storage battery is connected with solar cell array and wind turbine generator, namely transformer cooling device is utilized to carry out supplement heat rejecter heat radiation to transformer, the institute of cooling water section in coldplate is utilized to carry out heat exchange to transformer, unnecessary heat is shifted, and then transformer is lowered the temperature, blower fan is utilized to produce flowing wind, then respectively by supervisor, arm, exhaust duct, blow finally by the exhaust outlet on exhaust duct and think transformer, transformer is dispelled the heat, owing to being that multiple exhaust duct is evenly distributed on transformer surrounding, and exhaust duct is provided with multiple exhaust outlet, therefore Homogeneouslly-radiating can be carried out to the surface of transformer, ensure all can dispel the heat in each position, radiating effect is better, so, efficiently solving transformer of the prior art, to there is structural design unreasonable, radiating effect is poor, easily cause transformer damage, cause the technical problem of economic loss and security incident, and then it is reasonable in design to achieve transformer cooling device, transformer cooling device is utilized to carry out cooling to transformer, radiating and cooling effect is better, ensure the technique effect of the safety of transformer.

In order to better understand technique scheme, below in conjunction with Figure of description and concrete execution mode, technique scheme is described in detail.

Embodiment one:

In embodiment one, provide a kind of transformer cooling device, please refer to Fig. 1, described device comprises:

Described transformer 1 upper and lower end face is respectively provided with a coldplate 2, described coldplate 2 is built with cooling water, described transformer 1 horizontal direction left and right sides are equipped with a blower fan 3, described blower fan 3 casing is connected with the bottom of cone-shaped hood 4, the top of described cone-shaped hood 4 is connected with supervisor 5 one end, described supervisor 5 other end is communicated with the middle part of arm 6, described arm 6 two ends are sealing shape, described arm 6 surface is provided with N number of connecting hole, N number of exhaust duct 7 is communicated with between described 2 arms 6, described exhaust duct 7 two ends are communicated with the described connecting hole of described 2 arms 6 respectively, described exhaust duct 7 surface is provided with M exhaust outlet 8, described N, M is the positive integer being more than or equal to 1, described N number of exhaust duct 7 is evenly distributed on described transformer 1 surrounding, described two blower fans 3 are all connected with storage battery 9, described storage battery 9 is connected with solar cell array 10 and wind turbine generator 11.

Wherein, in actual applications, the cooling water in coldplate is utilized can to carry out heat exchange to transformer, be convenient to transformer Cooling and heat radiation, in actual applications, the shape of coldplate can be consistent with the shape of transformer upper and lower surface, be convenient to increase contact area, more effectively carry out cooling.

Wherein, in the embodiment of the present application, described transformer horizontal direction left and right sides are equipped with a support 12, and described support 12 is provided with chute, and described coldplate 2 is slidably connected by pulley and described support 12.

Wherein, in actual applications, coldplate is designed to be slidably connected with support, is to make the distance between 2 coldplates adjustable, can adjusts when lowering the temperature to different transformers, easy to use.

Wherein, in the embodiment of the present application, described N number of connecting hole is evenly distributed on a described tube-surface, and a described M exhaust outlet is evenly distributed on described exhaust duct surface.

Wherein, in actual applications, be provided with multiple connecting hole, and the position of connecting hole difference can ensure that the blast pipe quantity of connection is more and position is even respectively, and then realize being evenly distributed on transformer surrounding, and blast pipe surface uniform is provided with multiple steam vent, can carry out Homogeneouslly-radiating to each position of transformer, radiating effect is better.

Wherein, in the embodiment of the present application, described fan casing and described cone-shaped hood junction, described cone-shaped hood and described supervisor junction, described supervisor and described arm junction, described arm and described exhaust duct junction are equipped with sealing ring.

Wherein, in actual applications, arranging sealing ring can reduce gas leakage, ensures air-supply effect, and then ensures radiating effect.

Wherein, in the embodiment of the present application, described predominant tube diameter is greater than described arm diameter, and described arm diameter is greater than described exhaust duct diameter, and described exhaust duct is specially flexible pipe.

Wherein, in actual applications, solar cell array and wind turbine generator is utilized to carry out generating electricity into charge in batteries, storage battery is that blower fan is powered, blower fan carries out rotary air-blow, utilizes cone-shaped hood wind to be carried out collection air-supply, is transferred to support from supervisor, then be transferred to blast pipe from arm, finally blow to transformer from the exhaust outlet of blast pipe and dispel the heat.

Technical scheme in above-mentioned the embodiment of the present application, at least has following technique effect or advantage:

Owing to have employed, transformer cooling device is designed to comprise: described transformer upper and lower end face is respectively provided with a coldplate, described coldplate is built with cooling water, described transformer horizontal direction left and right sides are equipped with a blower fan, described fan casing is connected with the bottom of cone-shaped hood, the top of described cone-shaped hood is connected with supervisor one end, described supervisor's other end is communicated with the middle part of arm, described arm two ends are sealing shape, described tube-surface is provided with N number of connecting hole, N number of exhaust duct is communicated with between described 2 arms, described exhaust duct two ends are communicated with the described connecting hole of described 2 arms respectively, described exhaust duct surface is provided with M exhaust outlet, described N, M is the positive integer being more than or equal to 1, described N number of exhaust duct is evenly distributed on described transformer surrounding, described two blower fans are all connected with storage battery, the technical scheme that described storage battery is connected with solar cell array and wind turbine generator, namely transformer cooling device is utilized to carry out supplement heat rejecter heat radiation to transformer, the institute of cooling water section in coldplate is utilized to carry out heat exchange to transformer, unnecessary heat is shifted, and then transformer is lowered the temperature, blower fan is utilized to produce flowing wind, then respectively by supervisor, arm, exhaust duct, blow finally by the exhaust outlet on exhaust duct and think transformer, transformer is dispelled the heat, owing to being that multiple exhaust duct is evenly distributed on transformer surrounding, and exhaust duct is provided with multiple exhaust outlet, therefore Homogeneouslly-radiating can be carried out to the surface of transformer, ensure all can dispel the heat in each position, radiating effect is better, so, efficiently solving transformer of the prior art, to there is structural design unreasonable, radiating effect is poor, easily cause transformer damage, cause the technical problem of economic loss and security incident, and then it is reasonable in design to achieve transformer cooling device, transformer cooling device is utilized to carry out cooling to transformer, radiating and cooling effect is better, ensure the technique effect of the safety of transformer.

Although described preferred embodiment of the present utility model, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the utility model scope.

Obviously, those skilled in the art can carry out various change and modification to the utility model and not depart from spirit and scope of the present utility model.Like this, if these amendments of the present utility model and modification belong within the scope of the utility model claim and equivalent technologies thereof, then the utility model is also intended to comprise these change and modification.

Claims (5)

1. a transformer cooling device, is characterized in that, described device comprises:

Described transformer upper and lower end face is respectively provided with a coldplate, described coldplate is built with cooling water, described transformer horizontal direction left and right sides are equipped with a blower fan, described fan casing is connected with the bottom of cone-shaped hood, the top of described cone-shaped hood is connected with supervisor one end, described supervisor's other end is communicated with the middle part of arm, described arm two ends are sealing shape, described tube-surface is provided with N number of connecting hole, N number of exhaust duct is communicated with between described 2 arms, described exhaust duct two ends are communicated with the described connecting hole of described 2 arms respectively, described exhaust duct surface is provided with M exhaust outlet, described N, M is the positive integer being more than or equal to 1, described N number of exhaust duct is evenly distributed on described transformer surrounding, described two blower fans are all connected with storage battery, described storage battery is connected with solar cell array and wind turbine generator.

2. device according to claim 1, is characterized in that, described transformer horizontal direction left and right sides are equipped with a support, and described support is provided with chute, and described coldplate is connected with described bracket slide by pulley.

3. device according to claim 1, is characterized in that, described N number of connecting hole is evenly distributed on a described tube-surface, and a described M exhaust outlet is evenly distributed on described exhaust duct surface.

4. device according to claim 1, it is characterized in that, described fan casing and described cone-shaped hood junction, described cone-shaped hood and described supervisor junction, described supervisor and described arm junction, described arm and described exhaust duct junction are equipped with sealing ring.

5. device according to claim 1, is characterized in that, described predominant tube diameter is greater than described arm diameter, and described arm diameter is greater than described exhaust duct diameter, and described exhaust duct is specially flexible pipe.