CN101552095B - Heat dissipating device of transformer - Google Patents

Abstract

The invention relates to a heat dissipating device of a transformer, comprising an air duct arranged around the body of the transformer; the two ends of the air duct are respectively an air inlet and an air outlet; at least one layer of diaphragm plate is transversely arranged in the air duct; and the diaphragm plate is connected with the air duct in a sealed manner and extends toward the body of the transformer from the inner wall of the air duct, and a ventilating clearance is left between the diaphragm plate and the periphery of the body of the transformer. The heat dissipating device solves the problem of bad heat dissipating effect of the existing transformer, leads the heat dissipating effect of the transformer to achieve an ideal state, and leads the transformer to be capable of running with full load.

Description

Heat dissipating device of transformer

Technical field

The present invention relates to a kind of heat abstractor of transformer, particularly relate to the heat abstractor of a kind of enhanced type that dispels the heat of transformer.

Background technology

At present, the heat dissipating method of transformer case generally is to offer louvre on the cabinet of transformer case, thereby dispels the heat by natural wind.For further enhance heat effect, have establish below the cabinet air intake vent, above establish exhaust outlet, by the air channel of going into, form between the exhaust outlet transformer is dispelled the heat thus.But because the device body and the distance between the transformer case inwall of transformer are excessive, cause air quantity to run off from the transformer outside substantially, can not play due cooling effect, thereby cause the transformer heat radiation bad, influenced the operating efficiency of transformer, make transformer can only be in certain ambient temperature range could oepration at full load.

Because radiating effect can not reach perfect condition, the problem that transformer can't be operated at full capacity also has to adopt and falls the means of appearance, but will influence the actual operating efficiency of transformer greatly like this in order to improve.

CN1889206 discloses the pressure wind heat radiator of a kind of transformer heat dissipating method and adapted thereof, its technical scheme that adopts is to be provided with blower fan and Fan Box in the device body bottom of transformer, device body periphery at transformer is provided with the blower fan screen, blower fan screen and Fan Box are connected as a single entity and form a pressure air channel around the device body of transformer longitudinally, thereby accelerate flowing of wind, force to reduce the temperature of transformer.This structure forces the transformer radiating effect of wind heat radiation to make moderate progress with respect to not adopting, yet, because the restriction of the size of transformer coil folder up and down makes the air channel that forms between blower fan screen and the transformer coil be difficult to reduce, the efficient of forced air supply does not reach desirable state.Simultaneously, experiment through the inventor is learnt, the temperature of the position of the coil end face of transformer is the highest, adopt CN1889206 blower fan screen undesirable to the cooling-down effect of local high-temperature region, therefore, a kind of heat dissipating device of transformer that can further improve radiating effect becomes the target that those skilled in the art pursue.

Summary of the invention

The objective of the invention is to overcome the above-mentioned defective of existing transformer heat dissipation wind channel, a kind of heat dissipating device of transformer of good heat dissipation effect is provided.

For achieving the above object, technical scheme of the present invention is: a kind of heat dissipating device of transformer, it comprises the guide duct that is provided with around the device body of transformer, the two ends of described guide duct are respectively air inlet and air outlet, it is characterized in that: be horizontally arranged with one deck diaphragm plate at least in the described guide duct, described diaphragm plate and described guide duct are tightly connected, and extend to the device body direction of described transformer, and leave ventilation gap between the device body periphery of diaphragm plate and transformer from the inwall of guide duct.

As preferably, preferably the end of the elongated end of described diaphragm plate is arranged to be positioned on the residing horizontal plane of coil end face of transformer.

The choose reasonable ventilation gap can be on the one hand as preferred, and the ventilation gap between the device body of best described diaphragm plate and transformer is the 3%-15% of transformer coil outer diameter.

As preferably, best described diaphragm plate is the 1-4 layer.The quantity that diaphragm plate is provided with is too much, makes to be not easy to the complex structure of heat abstractor install.

As preferably, described diaphragm plate is tabular, adopts the tabular diaphragm plate, conveniently makes and installs.Diaphragm plate can be provided with perpendicular to the inwall direction of guide duct, also the elongated end of diaphragm plate can be tilted and is the incline direction setting to the air outlet direction.Wherein, the diaphragm plate that is obliquely installed is higher than near guide duct one side near a side of the device body of transformer, according to the principle that hot-air rises, the hot-air of diaphragm plate below can not be detained accumulation of heat, helps fully finishing heat exchange and reduces device body ambient air temperature.

More in the optimized technical scheme: the end of the elongated end of diaphragm plate down the wind is extended with a wind deflector, and described wind deflector and diaphragm plate junction adopt circular arc excessive.

Perhaps, the lower end of described guide duct is that the upper end of air inlet, described guide duct is an air outlet, and described diaphragm plate increases gradually from a side of the device body of a laterally closer transformer that is connected in guide duct, is the arc surfaced of downward protrusion.Diaphragm plate is designed to arc surfaced, has guide functions preferably, have less windage, help wind flow.Diaphragm plate is higher than near guide duct one side near a side of the device body of transformer, and according to the principle that hot-air rises, the hot-air of diaphragm plate below can not be detained accumulation of heat, helps fully finishing heat exchange and reduces device body ambient air temperature.

Wherein, described transformer is installed in the transformer cabinet, and the lower end of described guide duct is that the upper end of air inlet, described guide duct is an air outlet; The top board of described transformer cabinet is provided with exhaust outlet, then be provided with air intake vent on the base plate of transformer cabinet or the side plate, described heat abstractor also comprises the blower fan that is used for air draft, described blower fan be located at the transformer cabinet top board exhaust outlet the top or be located at the device body below of transformer.

As preferably, the upper end of described guide duct extends upwardly to the top board place of described transformer cabinet, and the exterior by exhaust outlet on the described top board and transformer cabinet.Be provided with the seal that the soft encapsulant that is used to seal is made between the upper end of best described guide duct and the transformer cabinet top board.For example use silastic material, it can reach good sealing effectiveness, simultaneously, can make the installation between the top board of guide duct and transformer cabinet simple.

In the another one execution mode, the air outlet of described guide duct is airtight to be connected with a upper cover plate, described upper cover plate is provided with at least one ventilation hole, and each ventilation hole is connecting a windward deferent, and described windward deferent also communicates with the exhaust outlet of transformer cabinet.

As preferably, be provided with the seal that the soft encapsulant that is used to seal is made between the top of described windward deferent and the transformer cabinet top board.

As preferably, best described windward deferent is positioned at the top of the device body of transformer, and with guide duct in the coaxial setting of ventilation gap.

Compared with prior art, the advantage that adopts the present invention of technique scheme to have is:

1. owing to adopt technique scheme of the present invention, between guide duct and transformer, adopt diaphragm plate that the air channel of transformer is spaced laterally apart, and between the device body of diaphragm plate and transformer, leave less ventilation gap, make it form the air channel of a circlet around the device body of transformer, the flow direction by this air channel guiding air, make that air-flow mainly is that the device body that is pasting transformer passes through, and the dividing plate place reduces the sectional area in air channel, thereby the raising wind speed makes the heat of transformer to distribute by the cross-ventilation exchange.Use it for blower fan or do not have the transformer of blower fan, can both effectively improve radiating effect.Through experiment, the heat abstractor that adopts this structure and original transformer specific temperature rise mutually reduce 5-10%, can reach maximum heat exchange effect, make the full-load run of transformer energy.Setting by diaphragm plate forces cold air wind to pass through around the device body of transformer, makes that the high-low pressure winding of transformer can be directly by carrying out heat loss through convection with cold air.Adopt this technical scheme of the present invention, under the structure situation that does not change transformer, can strengthen radiating effect greatly, make that transformer can full-load run.

2. further, the present invention is provided with blower fan above cabinet top board exhaust outlet, and between the exhaust outlet of guide duct and cabinet top board, be provided with the windward deferent, particularly the exhaust outlet of windward deferent and cabinet all is positioned at the coaxial setting of device body of transformer, more help flowing of wind, the windward deferent has reduced device that guide duct the is positioned at transformer area of section of side on one's body, and the last exhaust outlet of windward deferent and transformer cabinet mates, and is beneficial to the raising of wind speed and the improvement of radiating effect.

Description of drawings

Figure 1A be heat dissipating device of transformer of the present invention embodiment one remove guide duct preceding structure schematic diagram;

Figure 1B is the schematic diagram that heat dissipating device of transformer embodiment one of the present invention removes guide duct part front;

Fig. 2 is the schematic diagram of ventilation gap of the embodiment one of heat dissipating device of transformer of the present invention;

Fig. 3 is the structural representation of the embodiment two of heat dissipating device of transformer of the present invention;

Fig. 4 is the diaphragm plate of embodiment three of heat dissipating device of transformer of the present invention and the structural representation of guide duct configuration mode;

Fig. 5 is the diaphragm plate of embodiment four of heat dissipating device of transformer of the present invention and the structural representation of guide duct configuration mode;

Fig. 6 is the diaphragm plate of embodiment five of heat dissipating device of transformer of the present invention and the structural representation of guide duct configuration mode.

Description of reference numerals: the device body 100 of transformer, transformer cabinet 101, upper plate 1011, base plate 1012, upper clamping piece 102, lower clamping piece 103, guide duct 1, exhaust outlet 11, air intake vent 12, upper cover plate 13, coaming plate 14, blower fan 2, diaphragm plate 3, wind deflector 31, ventilation gap 4, windward deferent 5, seal 6.

Embodiment

Illustrate further below in conjunction with accompanying drawing and instantiation.

Embodiment one, shown in Figure 1A, 1B, heat dissipating device of transformer of the present invention uses schematic diagram in conjunction with transformer, described transformer (including three device bodies 100) is installed in the transformer cabinet 101, correspondence is provided with three exhaust outlets 11 on the top board 1011 of described transformer cabinet 101, on the base plate 1012 of transformer cabinet 101 then correspondence be provided with three air intake vents 12 (also air intake vent can be arranged on the side plate of cabinet).Described heat abstractor can comprise the blower fan 2 that is used for air draft, three blower fans 2 is located at the top of exhaust outlet 11 of the top board 1011 of transformer cabinet 101, helps flowing fast of air.Described heat abstractor also comprises the guide duct 1 that is provided with around the device body 100 of transformer, the lower end of described guide duct 1 is an air inlet, the upper end is an air outlet, the lower end of guide duct 1 extends to the bottom of the device body 100 of transformer, the upper end of guide duct 1 then extends to cabinet upper plate 1011 places of transformer, and the exterior by the exhaust outlet on the described top board 1,011 11 and transformer cabinet 101 (, between the top board 1011 of guide duct 1 and cabinet, being provided with the seal 6 that flexible material such as silica gel is made) in order to prevent to leak out.So be provided with, can enter in the guide duct 1 through the air inlet of guide duct 1 for the air intake vent 12 of extraneous cold air from transformer cabinet 101, after carrying out heat exchange with transformer, hot-air is discharged through the exhaust outlet 11 of transformer cabinet 101 by the air outlet of guide duct 1 again.

Wherein, the structure of guide duct 1 is: be fixed with the framework that is rectangular-shaped on the upper and lower folder 102,103 of transformer coil, the coaming plate 14 that insulating material is made be fixed on rectangular-shaped framework around, thereby form the guide duct 1 of rectangular tubulose, obviously, the shape of guide duct 1 is not limited to rectangular tubulose, also the oval tubulose that can adapt to for the device body 100 with transformer, it mainly is to surround an air channel, and wind can be passed through to get final product near the device body 100 of transformer.Yet, because the restriction of the device body 100 upper and lower folders 102,103 of transformer, make that the air channel that forms between the device body 100 of guide duct 1 and transformer can not be very near, cause cold air in guide duct 1, not finish heat exchange fully and just be discharged from outside the transformer cabinet 101.To this, the important improvement that present embodiment has been done is exactly: in conjunction with Figure 1A, Figure 1B and shown in Figure 2, the diaphragm plate 3 that the horizontally set two layers of insulation material is made in described guide duct 1, described diaphragm plate 3 is a tabular, be provided with perpendicular to the inlet air direction, and be tightly connected with described guide duct 1, and, diaphragm plate 3 extends to device body 100 directions of described transformer from the inwall of guide duct 1, also leaves ventilation gap 4 between device body 100 peripheries of diaphragm plate 3 and transformer.Thus, the air-flow by guide duct 1 is under the forced guiding of diaphragm plate 3, and the device body 100 that will be close to transformer passes through, and because flow velocity also improves greatly, makes heat exchanger effectiveness also improve greatly certainly.Consult shown in Figure 2, three winding types of the device body of the transformer in the present embodiment 100 for being arranged in order, therefore, the inner edge of diaphragm plate 3 should be three circles mutually.

In order to obtain higher heat exchanger effectiveness, the applicant has following summary of experience through a large amount of experiment and data analysis:

1, the number of diaphragm plate 3 is not too many, is advisable with 1-4;

2, the ventilation gap 4 between device body 100 peripheries of diaphragm plate 3 and transformer preferably evenly is provided with, and described ventilation gap 4 can reasonably be selected according to the size of transformer, and its size is the 3%-15% of coil outer diameter preferably;

3, the middle part coil end face of the device body 100 of transformer is the high-temperature region, and the end of the elongated end of described diaphragm plate 3 preferably is positioned on the residing horizontal plane of coil end face, makes the wind speed flow faster of this high-temperature region, thereby better to this local cooling-down effect.

Embodiment two, as shown in Figure 3, be that another heat dissipating device of transformer of the present invention uses schematic diagram in conjunction with transformer, its structure is roughly identical with embodiment one, difference only is: the air outlet of described guide duct 1 is airtight to be connected with a upper cover plate 13, described upper cover plate 13 is provided with three ventilation hole (not shown), and each ventilation hole is connecting an end of a windward deferent 5, and the other end of described windward deferent 5 then communicates with the exhaust outlet 11 of transformer cabinet 101.Wherein, the exhaust outlet 11 of transformer cabinet 101 is positioned at the top of the device body 100 of transformer, and promptly windward deferent 5 is positioned at the top of the device body 100 of transformer, and with diaphragm plate 33 in ventilation gap 4 coaxial settings.Thereby make the blower fan 2 that is positioned at the cabinet top, can bleed by the air channel that windward deferent 5, guide duct 1 surround, the device body 100 that makes wind be close to transformer simultaneously under the effect of diaphragm plate 3 passes through on every side, has improved radiating effect.In order to improve sealing effectiveness, also be provided with seal 6 between the top of windward deferent 5 and transformer cabinet 101 top boards 1011, soft encapsulants such as seal 6 usefulness such as silicon rubber are made.

Embodiment three, referring to Fig. 4, the another kind of structure of having showed heat abstractor of the present invention among the figure, this embodiment is improved on the basis of embodiment one, only be with embodiment one difference: wherein the number of diaphragm plate 3 has two, the diaphragm plate 3 that is in the top is tabular, and the elongated end of diaphragm plate 3 is tilted and is the incline direction setting to the air outlet direction, the diaphragm plate 3 that is in the below increases gradually from a side of the device body 100 of a laterally closer transformer that is connected in guide duct 1, and is the arc surfaced of downward protrusion.Such shape, according to the principle that hot-air rises, hot blast is upwards discharged, and can not be trapped in the below of diaphragm plate 3, helps fully finishing heat exchange and reduces device body 100 ambient air temperature.And, the downward planar resistance that can further reduce wind of circular arc that protrudes.Simultaneously, in the present embodiment, blower fan 2 is installed in device body 100 belows of transformer.In addition, in order to reduce the temperature of transformer coil end positions, therefore, diaphragm plate 3 is located at the coil end.

Embodiment four, referring to Fig. 5, another structure of having showed heat abstractor of the present invention among the figure, with a last embodiment difference be, adopt two diaphragm plates 3, one of them is a tabular, another is circular-arc, and the end of the elongated end of flat diaphragm plate 3 also down the wind is extended with a wind deflector 31, and diaphragm plate 3 and wind deflector 31 junctions adopt circular arc excessive.In embodiment three and embodiment four, when tabular diaphragm plate 3 and arc surfaced diaphragm plate 3 are used in combination, and the diaphragm plate 3 of arc surfaced is positioned at tabular diaphragm plate 3 belows, beneficial effect is: the installation and maintenance of the more convenient up device body 100 of tabular diaphragm plate 3, arc diaphragm plate 3 below then can obviously reduce windage.

Embodiment five, referring to Fig. 6, showed another structure of heat abstractor of the present invention among the figure, with a last embodiment difference be: adopt three layers of arcuation diaphragm plate 3, it helps reducing the resistance of wind, and can the delay hot-air not arranged below diaphragm plate 3, is beneficial to heat radiation.

To sum up, heat abstractor of the present invention mainly is to be located at the outer guide duct 1 of the device body 100 of transformer and in conjunction with the setting of diaphragm plate 3 by ring, thereby wind is flow through around transformer, takes away heat, reach better heat radiating effect, and transformer can be operated at full capacity.

More than explanation is just illustrative for the purpose of the present invention; and nonrestrictive, those of ordinary skills understand, under the situation of the spirit and scope that do not break away from claim and limited; can make many modifications, variation or equivalence, but all will fall within protection scope of the present invention.

Claims (12)

1. heat dissipating device of transformer, it comprises the guide duct that is provided with around the device body of transformer, the two ends of described guide duct are respectively air inlet and air outlet, it is characterized in that: be horizontally arranged with one deck diaphragm plate at least in the described guide duct, described diaphragm plate and described guide duct are tightly connected, and extend to the device body direction of described transformer, and leave ventilation gap between the device body periphery of diaphragm plate and transformer from the inwall of guide duct.

2. heat dissipating device of transformer according to claim 1 is characterized in that: the end of the elongated end of described diaphragm plate is positioned on the residing horizontal plane of coil end face of transformer.

3. heat dissipating device of transformer according to claim 1 is characterized in that: described diaphragm plate is tabular, and the end of the elongated end of diaphragm plate down the wind is extended with a wind deflector, and described wind deflector and diaphragm plate junction adopt circular arc excessive.

4. heat dissipating device of transformer according to claim 1 is characterized in that: the ventilation gap between the device body of described diaphragm plate and transformer is the 3%-15% of the coil outer diameter of transformer.

5. heat dissipating device of transformer according to claim 1 is characterized in that: described diaphragm plate is the 1-4 layer.

6. heat dissipating device of transformer according to claim 1 is characterized in that: described diaphragm plate be shaped as tabular, and diaphragm plate is provided with perpendicular to the inwall direction of guide duct; Perhaps, described diaphragm plate be shaped as tabular, and the elongated end of diaphragm plate is tilted and is the incline direction setting to the air outlet direction; Perhaps, the lower end of described guide duct is that the upper end of air inlet, described guide duct is an air outlet, and described diaphragm plate increases gradually from a side of the device body of a laterally closer transformer that is connected in guide duct, is the arc surfaced of downward protrusion.

7. according to each described heat dissipating device of transformer among the claim 1-6, it is characterized in that: described transformer is installed in the transformer cabinet, and the lower end of described guide duct is that the upper end of air inlet, described guide duct is an air outlet; The top board of described transformer cabinet is provided with exhaust outlet, then be provided with air intake vent on the base plate of transformer cabinet or the side plate, described heat abstractor also comprises the blower fan that is used for air draft, described blower fan be located at the transformer cabinet top board exhaust outlet the top or be located at the device body below of transformer.

8. heat dissipating device of transformer according to claim 7 is characterized in that: the upper end of described guide duct extends upwardly to the top board place of described transformer cabinet, and the exterior by exhaust outlet on the described top board and transformer cabinet.

9. heat dissipating device of transformer according to claim 8 is characterized in that: be provided with the seal that the soft encapsulant that is used to seal is made between the upper end of described guide duct and the transformer cabinet top board.

10. heat dissipating device of transformer according to claim 7, it is characterized in that: the air outlet of described guide duct is airtight to be connected with a upper cover plate, described upper cover plate is provided with at least one ventilation hole, each ventilation hole is connecting a windward deferent, and described windward deferent also communicates with the exhaust outlet of transformer cabinet.

11. heat dissipating device of transformer according to claim 10 is characterized in that: be provided with the seal that the soft encapsulant that is used to seal is made between the top of described windward deferent and the transformer cabinet top board.

12. heat dissipating device of transformer according to claim 10 is characterized in that: described windward deferent is positioned at the top of the device body of transformer, and with guide duct in the coaxial setting of ventilation gap.

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