CN207134200U - A kind of thermal shock structure dry-type transformer - Google Patents
A kind of thermal shock structure dry-type transformer Download PDFInfo
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- CN207134200U CN207134200U CN201721017804.8U CN201721017804U CN207134200U CN 207134200 U CN207134200 U CN 207134200U CN 201721017804 U CN201721017804 U CN 201721017804U CN 207134200 U CN207134200 U CN 207134200U
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- heat
- heat sink
- blower fan
- transformer body
- thermal shock
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Abstract
The utility model discloses a kind of thermal shock structure dry-type transformer, including transformer body and the first heat sink, bushing and low-tension bushing are separately installed with above the transformer body, and bushing is located at the left side of low-tension bushing, left heat abstractor is installed on the left of the transformer body, the inside of the left heat abstractor and right heat abstractor is mounted on the first blower fan, motor is installed on the inside of second blower fan, the bottom of the transformer body is fixed with base, the surface of first heat sink is provided with condenser pipe, heat emission fan is installed above the condenser pipe, the second heat sink and the 3rd heat sink are separately installed with the right side of first heat sink.The thermal shock structure dry-type transformer, is provided with multiple radiating device, can not only prevent the heat of outside from entering the inside of the device, moreover it is possible to heat caused by inside the device is timely discharged to the external world.
Description
Technical field
Transformer technology field is the utility model is related to, specially a kind of thermal shock structure dry-type transformer.
Background technology
Dry-type transformer is widely used in the places such as local lighting, skyscraper, airport, and recent years, weather became increasingly
Extremely, all occur different degrees of heat weather in summer China various regions, and transformer itself is also the equipment of a heating, it is existing
Some transformer thermal shock effects are poor, easily burn out the circuit of inside during the broiling summer, fire is caused when serious, for
The above situation, technological innovation is carried out on the basis of existing transformer.
Utility model content
The purpose of this utility model is to provide a kind of thermal shock structure dry-type transformer, to solve above-mentioned background technology
Middle proposition in general thermal shock effect is poor, easily burns out the circuit of inside during the broiling summer, fire is caused when serious
Problem.
To achieve the above object, the utility model provides following technical scheme:A kind of thermal shock structure dry-type transformer,
Including transformer body and the first heat sink, bushing and low pressure set are separately installed with above the transformer body
Pipe, and bushing is located at the left side of low-tension bushing, and left heat abstractor, and transformer are provided with the left of the transformer body
Right heat abstractor is installed on the right side of main body, the inside of the left heat abstractor and right heat abstractor is mounted on the first blower fan,
And first the inner side of blower fan be rotatablely connected by universal driving shaft and the second blower fan, motor is installed on the inside of second blower fan,
The bottom of the transformer body is fixed with base, and the upper left of transformer body is provided with fixed hook, while transformation
Shockproof side strip is installed, the surface of first heat sink is provided with condenser pipe, and the first heat absorption dress on the right side of device main body
Setting in the side surface of transformer body, heat emission fan, and that peace of the lower section of condenser pipe are installed above the condenser pipe
Equipped with lower heat emission fan, the second heat sink and the 3rd heat sink, and are separately installed with the right side of first heat sink
Two heat sinks are located at the left side of the 3rd heat sink.
Preferably, the left heat abstractor is identical with right construction for heat radiating device, and between the two on transformer body
Axis is symmetrical.
Preferably, first blower fan and the second blower fan are arranged in parallel, and distance between the two is 5cm, simultaneously
Motor and the first blower fan and the second blower fan are rotation connection.
Preferably, the condenser pipe is serpentine structure, and it is internal equipped with 3/4ths water.
Preferably, the upper heat emission fan and lower heat emission fan are symmetrical on the horizontal center line of the first heat sink.
Preferably, first heat sink, the second heat sink and the 3rd heat sink structure are identical, and three is horizontal
It is evenly distributed on direction.
Compared with prior art, the beneficial effects of the utility model are:The thermal shock structure dry-type transformer, is provided with
Multiple radiating device, can not only prevent the heat of outside from entering the inside of the device, moreover it is possible to make heat caused by inside the device and
When be discharged to the external world, the left heat abstractor of the device is identical with right construction for heat radiating device, and between the two on transformer body
Axis is symmetrical, and left heat abstractor and right heat abstractor cooperate to being radiated outside transformer body.
Brief description of the drawings
Fig. 1 is the utility model structure diagram;
Fig. 2 is the utility model transformer body side structure schematic view.
In figure:1st, transformer body, 2, bushing, 3, low-tension bushing, 4, left heat abstractor, 5, right heat abstractor, 6,
First blower fan, 7, universal driving shaft, the 8, second blower fan, 9, motor, 10, base, 11, fixed hook, 12, shockproof side strip, 13,
One heat sink, 14, condenser pipe, 15, upper heat emission fan, 16, lower heat emission fan, the 17, second heat sink, the 18, the 3rd heat sink.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made
The every other embodiment obtained, belong to the scope of the utility model protection.
Fig. 1-2 is referred to, the utility model provides a kind of technical scheme:A kind of thermal shock structure dry-type transformer, bag
The heat sink 13 of transformer body 1 and first is included, the top of transformer body 1 is separately installed with bushing 2 and low-tension bushing
3, and bushing 2 is located at the left side of low-tension bushing 3, the left side of transformer body 1 is provided with left heat abstractor 4, and transformer
The right side of main body 1 is provided with right heat abstractor 5, and left heat abstractor 4 is identical with the right structure of heat abstractor 5, and between the two on
The axis of transformer body 1 is symmetrical, and left heat abstractor 4 and right heat abstractor 5 cooperate to be carried out to the outside of transformer body 1
Radiating, the inside of left heat abstractor 4 and right heat abstractor 5 is mounted on the first blower fan 6, and the inner side of the first blower fan 6 passes through connection
Moving axis 7 is rotatablely connected with the second blower fan 8, and the inner side of the second blower fan 8 is provided with motor 9, the first blower fan 6 and the phase of the second blower fan 8
Mutually it be arranged in parallel, and distance between the two is 5cm, while the blower fan 6 of motor 9 and first and the second blower fan 8 are the company of rotation
Connect, motor 9 drives the first blower fan 6 to be rotated with the second blower fan 8, heat caused by the inside of discharge transformer body 1, the first wind
There is good buffering effect when the blower fan 8 of machine 6 and second is by external impact, the part inside transformer body 1 is protected
Shield, the bottom of transformer body 1 is fixed with base 10, and the upper left of transformer body 1 is provided with fixed hook 11, simultaneously
The right side of transformer body 1 is provided with shockproof side strip 12, and the surface of the first heat sink 13 is provided with condenser pipe 14, and first
Heat sink 13 is located at the side surface of transformer body 1, and the top of condenser pipe 14 is provided with heat emission fan 15, and condenser pipe 14
That is provided with lower heat emission fan 16 for lower section, and condenser pipe 14 is serpentine structure, and it is internal equipped with 3/4ths water, upper radiating
Fan 15 is symmetrical on the horizontal center line of the first heat sink 13 with lower heat emission fan 16, and the water in condenser pipe 14 can absorb transformation
The heat to be shed inside device main body 1 or the inside for preventing extraneous heat from entering the device, the right side point of the first heat sink 13
Second heat sink 17 and the 3rd heat sink 18 are not installed, and the second heat sink 17 is located at a left side for the 3rd heat sink 18
Side, the first heat sink 13, the second heat sink 17 are identical with the structure of the 3rd heat sink 18, and in three's horizontal direction uniformly
Arranged distribution, further strengthen the effect of the device radiation.
Operation principle:When using the thermal shock structure dry-type transformer, left heat abstractor 4 and right heat abstractor 5 knot
Structure is identical, and the axis between the two on transformer body 1 is symmetrical, and left heat abstractor 4 and right heat abstractor 5 cooperate
To being radiated outside transformer body 1, the first blower fan 6 and the second blower fan 8 are arranged in parallel, and distance between the two is
5cm, while the blower fan 6 of motor 9 and first and the second blower fan 8 are rotation connection, motor 9 drives the first blower fan 6 and second
Blower fan 8 is rotated, heat caused by the inside of discharge transformer body 1, when the first blower fan 6 and the second blower fan 8 are by external impact
With good buffering effect, the part inside transformer body 1 to be protected, condenser pipe 14 is serpentine structure, and in it
Portion is equipped with 3/4ths water, and upper heat emission fan 15 is symmetrical on the horizontal center line of the first heat sink 13 with lower heat emission fan 16,
Water in condenser pipe 14 can absorb the heat to be shed inside transformer body 1 or prevent extraneous heat from entering the interior of the device
Portion, the first heat sink 13, the second heat sink 17 are identical with the structure of the 3rd heat sink 18, and in three's horizontal direction uniformly
Arranged distribution, further strengthen the effect of the device radiation, it is former here it is the work of the thermal shock structure dry-type transformer
Reason.
While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art,
It is appreciated that these embodiments can be carried out with a variety of changes in the case where not departing from principle of the present utility model and spirit, repaiied
Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.
Claims (6)
1. a kind of thermal shock structure dry-type transformer, including transformer body(1)With the first heat sink(13), its feature exists
In:The transformer body(1)Top be separately installed with bushing(2)And low-tension bushing(3), and bushing(2)Position
In low-tension bushing(3)Left side, the transformer body(1)Left side left heat abstractor is installed(4), and transformer body
(1)Right side right heat abstractor is installed(5), the left heat abstractor(4)With right heat abstractor(5)Inside be mounted on
One blower fan(6), and the first blower fan(6)Inner side pass through universal driving shaft(7)With the second blower fan(8)Rotation connection, second blower fan
(8)Inner side motor is installed(9), the transformer body(1)Bottom be fixed with base(10), and transformer body
(1)Upper left fixed hook is installed(11), while transformer body(1)Right side shockproof side strip is installed(12),
First heat sink(13)Surface condenser pipe is installed(14), and the first heat sink(13)Positioned at transformer body
(1)Side surface, the condenser pipe(14)Top heat emission fan is installed(15), and condenser pipe(14)Lower section that installation
There is lower heat emission fan(16), first heat sink(13)Right side be separately installed with the second heat sink(17)With the 3rd heat absorption
Device(18), and the second heat sink(17)Positioned at the 3rd heat sink(18)Left side.
A kind of 2. thermal shock structure dry-type transformer according to claim 1, it is characterised in that:The left heat abstractor
(4)With right heat abstractor(5)Structure is identical, and between the two on transformer body(1)Axis it is symmetrical.
A kind of 3. thermal shock structure dry-type transformer according to claim 1, it is characterised in that:First blower fan
(6)With the second blower fan(8)It is arranged in parallel, and distance between the two is 5cm, while motor(9)With the first blower fan(6)
With the second blower fan(8)It is rotation connection.
A kind of 4. thermal shock structure dry-type transformer according to claim 1, it is characterised in that:The condenser pipe(14)
For serpentine structure, and its it is internal be equipped with 3/4ths water.
A kind of 5. thermal shock structure dry-type transformer according to claim 1, it is characterised in that:The upper heat emission fan
(15)With lower heat emission fan(16)On the first heat sink(13)Horizontal center line it is symmetrical.
A kind of 6. thermal shock structure dry-type transformer according to claim 1, it is characterised in that:The first heat absorption dress
Put(13), the second heat sink(17)With the 3rd heat sink(18)Structure is identical, and evenly distributed point in three's horizontal direction
Cloth.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721017804.8U CN207134200U (en) | 2017-08-15 | 2017-08-15 | A kind of thermal shock structure dry-type transformer |
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CN201721017804.8U CN207134200U (en) | 2017-08-15 | 2017-08-15 | A kind of thermal shock structure dry-type transformer |
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CN207134200U true CN207134200U (en) | 2018-03-23 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108735461A (en) * | 2018-05-06 | 2018-11-02 | 江苏创凌非晶科技发展有限公司 | dry-type transformer |
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2017
- 2017-08-15 CN CN201721017804.8U patent/CN207134200U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108735461A (en) * | 2018-05-06 | 2018-11-02 | 江苏创凌非晶科技发展有限公司 | dry-type transformer |
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