CN104088759B - A kind of wind generator set with evaporation-cooled device - Google Patents

Abstract

It is an object of the invention to provide a kind of wind generator set with evaporation-cooled device.The technical scheme is that and be made up of pedestal, engine space, gear-box heat exchanger, power blade and evaporation circulating cooling machine, the inside of engine space is additionally provided with gearing shaft, electromotor, electromotor heat exchanger, circulating pump, cooling medium heat exchanger, controls converter and control frequency conversion heat exchanger.This is in-house equipped with a circulating pump, can be extracted by the cooling medium in cooling medium heat exchanger, reaches gear-box heat exchanger, electromotor heat exchanger through cooling medium conveying pipe group and controls in frequency conversion heat exchanger.Through these parts, the heat produced with upper-part is taken away.All parts in engine space is defined a circulation.This mechanism ensure that under particular job environment, the operation that each parts of unit can be long-term, stable；And also high-power cooling requirement can be met, there is the features such as refrigerating capacity is big, regulating power strong, good stability.

Description

A kind of wind generator set with evaporation-cooled device

Technical field

The present invention relates to machinery manufacturing technology field, particularly relate to a kind of wind-driven generator with evaporation-cooled device Structure.

Background technology

Conventional wind power generating set and equipment are all to come for power electric generators by power blade, to such an extent as to generating Machine is started working, and carries out generating effect.Owing to operationally, each device internal easily produces heat, and heat can not be normal Discharge, thus reduce the service life of wind-driven generator, and there is certain potential safety hazard.This is in-house equipped with one Circulating pump, can extract the cooling medium in cooling medium heat exchanger, reaches gear-box through cooling medium conveying pipe group and changes In hot device, electromotor heat exchanger and control frequency conversion heat exchanger.Through these parts, the heat produced with upper-part is taken away. Big calorimetric can be produced owing to controlling frequency conversion heat exchanger in the course of the work, therefore dissipate equipped with an auxiliary on control frequency conversion heat exchanger Thermal, controls frequency conversion radiator and can help to carry out dredging of heat, and other heats produced are through cooling medium return duct Group and cooling medium recovery tube flow back in evaporation circulating cooling machine, carry out heat exchange and cooling therein.Then to master All parts in cabin carries out next round circulation.This mechanism ensure that under particular job environment, and each parts of unit can be grown Phase, stable operation；And also high-power cooling requirement can be met, have that refrigerating capacity is big, regulating power strong, a good stability etc. Feature, can be suitably used for various types of wind generator set and device.

Summary of the invention

It is an object of the invention to provide a kind of wind generator set with evaporation-cooled device.

The technical scheme is that a kind of wind generator set with evaporation-cooled device, it is characterised in that: by base Seat, engine space, gear-box heat exchanger, power blade and evaporation circulating cooling machine composition, described engine space is positioned at the top of pedestal, Described engine space is connected for fixing with pedestal, and described gear-box heat exchanger is positioned at the top of engine space, described gear-box heat exchanger Being connected for fixing with engine space, described power blade is positioned at the side of gear-box heat exchanger, and described power blade changes with gear-box Hot device connects for fixing, and the inside of described engine space is additionally provided with gearing shaft, electromotor, electromotor heat exchanger, circulating pump, cold But media heat exchanger, control converter and control frequency conversion heat exchanger, described gearing shaft is positioned at the bottom of gear-box heat exchanger, Described gearing shaft and gear-box heat exchanger are connected for fixing, and described electromotor is positioned at the bottom of gearing shaft, described Motor is connected for fixing with gearing shaft, and described electromotor heat exchanger is positioned at the bottom of electromotor, described electromotor heat exchanger Being connected for fixing with electromotor, described cooling medium heat exchanger is positioned at the bottom of engine space, described cooling medium heat exchanger and base Seat connects for fixing, and described cooling medium heat exchanger is additionally provided with cooling medium extraction tube and cooling medium return duct group, described One end of cooling medium extraction tube is connected for fixing by cooling medium heat exchanger, and the other end of described cooling medium extraction tube leads to Crossing circulating pump to connect for fixing, described circulating pump is positioned at the top of cooling medium heat exchanger, and described circulating pump is additionally provided with cooling Medium conveying pipe group, one end of described cooling medium conveying pipe group is connected for fixing by circulating pump, and described cooling medium carries The other three port of pipe group is connected for fixing by gear-box heat exchanger, electromotor heat exchanger and control frequency conversion heat exchanger respectively, Described control converter is positioned at the side of cooling medium heat exchanger, and described control converter is connected for fixing with pedestal, described control Frequency conversion heat exchanger processed is positioned at the top controlling converter, and described control frequency conversion heat exchanger is connected for fixing with controlling converter, institute Stating and be additionally provided with control frequency conversion radiator on control frequency conversion heat exchanger, described control frequency conversion radiator is positioned at and controls frequency conversion heat exchanger Top, described control frequency conversion radiator is connected for fixing with controlling frequency conversion heat exchanger, one end of described cooling medium return duct group Being connected for fixing by cooling medium heat exchanger, the other three port of described cooling medium return duct group is changed by gear-box respectively Hot device, electromotor heat exchanger and control frequency conversion heat exchanger connect for fixing, and described evaporation circulating cooling machine is positioned at the one of engine space Side, described evaporation circulating cooling machine is connected for fixing with pedestal, and described evaporation circulating cooling machine is additionally provided with cooling medium output Pipe and cooling medium recovery tube, described cooling medium outlet tube is parallel with cooling medium recovery tube is positioned at evaporation circulating cooling machine Side, one end of described cooling medium outlet tube is connected for fixing by evaporation circulating cooling machine, described cooling medium outlet tube The other end run through engine space and cooling medium heat exchanger and be connected for fixing, one end of described cooling medium recovery tube is by evaporating Circulating refrigerator connects for fixing, and it is solid that the other end of described cooling medium recovery tube runs through engine space with cooling medium heat exchanger Fixed connection.

Further, the material of described pedestal is cast iron.

Further, the material of described engine space is ferrum nacelle.

Further, the material of described cooling medium extraction tube is PVC plastic pipe.

Further, the material of described cooling medium conveying pipe group is PVC plastic pipe.

Further, the material of described cooling medium outlet tube is iron pipe.

Further, the material of described cooling medium recovery tube is iron pipe.

Further, the material of described cooling medium return duct group is PVC plastic pipe.

The beneficial effects of the present invention is: this is in-house equipped with a circulating pump, can be by cooling medium heat exchanger Cooling medium extract, through cooling medium conveying pipe group reach gear-box heat exchanger, electromotor heat exchanger and control frequency conversion change In hot device.Through these parts, the heat produced with upper-part is taken away.Owing to controlling frequency conversion heat exchanger in the course of the work Can produce big calorimetric, therefore control equipped with an auxiliary radiating device on frequency conversion heat exchanger, controlling frequency conversion radiator can help Carrying out dredging of heat, other heats produced flow back to vaporization cycle through cooling medium return duct group and cooling medium recovery tube In refrigeration machine, carry out heat exchange and cooling therein.Then all parts in engine space is being carried out next round circulation. This mechanism ensure that under particular job environment, the operation that each parts of unit can be long-term, stable；And also big merit can be met Rate cooling requirement, has the features such as refrigerating capacity is big, regulating power strong, good stability, can be suitably used for various types of wind-power electricity generation Mechanism and device.

Accompanying drawing explanation

Fig. 1 is the front view of the present invention.

Wherein: 1, pedestal 2, engine space 3, gear-box heat exchanger

4, power blade 5, gearing shaft 6, electromotor

7, electromotor heat exchanger 8, circulating pump 9, cooling medium extraction tube

10, cooling medium conveying pipe group 11, cooling medium heat exchanger 12, cooling medium outlet tube

13, cooling medium recovery tube 14, evaporation circulating cooling machine 15, control converter

16, control frequency conversion heat exchanger 17, control frequency conversion radiator 18, cooling medium return duct group

Detailed description of the invention

Below in conjunction with the accompanying drawings the detailed description of the invention of the present invention is made brief description.

A kind of wind generator set with evaporation-cooled device, it is characterised in that: by pedestal 1, engine space 2, gear-box heat exchanger 3, power blade 4 and evaporation circulating cooling machine 14 form, and described engine space 2 is positioned at the top of pedestal 1, institute Stating engine space 2 to be connected for fixing with pedestal 1, described gear-box heat exchanger 3 is positioned at the top of engine space 2, described gear-box heat exchange Device 3 is connected for fixing with engine space 2, and described power blade 4 is positioned at the side of gear-box heat exchanger 3, described power blade 4 and tooth Roller box heat exchanger 3 connects for fixing, and the inside of described engine space 2 is additionally provided with gearing shaft 5, electromotor 6, electromotor heat exchanger 7, circulating pump 8, cooling medium heat exchanger 11, control converter 15 and control frequency conversion heat exchanger 16, described gearing shaft 5 is positioned at The bottom of gear-box heat exchanger 3, described gearing shaft 5 is connected for fixing with gear-box heat exchanger 3, and described electromotor 6 is positioned at The bottom of gearing shaft 5, described electromotor 6 is connected for fixing with gearing shaft 5, and described electromotor heat exchanger 7 is positioned to be sent out The bottom of motor 6, described electromotor heat exchanger 7 is connected for fixing with electromotor 6, and described cooling medium heat exchanger 11 is positioned at main frame The bottom in cabin 2, described cooling medium heat exchanger 11 is connected for fixing with pedestal 1, described cooling medium heat exchanger 11 is additionally provided with Cooling medium extraction tube 9 and cooling medium return duct group 18, cooling medium heat exchange is passed through in one end of described cooling medium extraction tube 9 Device 11 connects for fixing, and the other end of described cooling medium extraction tube 9 is connected for fixing by circulating pump 8, described circulating pump 8 In the top of cooling medium heat exchanger 11, described circulating pump 8 being additionally provided with cooling medium conveying pipe group 10, described cooling medium is defeated The one end sending pipe group 10 is connected for fixing by circulating pump 8, and the other three port of described cooling medium conveying pipe group 10 leads to respectively Cross gear-box heat exchanger 3, electromotor heat exchanger 7 and control frequency conversion heat exchanger 16 for fixing connection, 15, described control converter In the side of cooling medium heat exchanger 11, described control converter 15 is connected for fixing with pedestal 1, described control frequency conversion heat exchanger 16 are positioned at the top controlling converter 15, and described control frequency conversion heat exchanger 16 is connected for fixing with controlling converter 15, described control Being additionally provided with control frequency conversion radiator 17 on frequency conversion heat exchanger 16 processed, described control frequency conversion radiator 17 is positioned at control frequency conversion heat exchanger The top of 16, described control frequency conversion radiator 17 is connected for fixing with controlling frequency conversion heat exchanger 16, described cooling medium return duct One end of group 18 is connected for fixing by cooling medium heat exchanger 11, and the other three port of described cooling medium return duct group 18 divides Not Tong Guo gear-box heat exchanger 3, electromotor heat exchanger 7 and control frequency conversion heat exchanger 16 and connect for fixing, described vaporization cycle system Cold 14 is positioned at the side of engine space 2, and described evaporation circulating cooling machine 14 is connected for fixing with pedestal 1, described vaporization cycle system Being additionally provided with cooling medium outlet tube 12 and cooling medium recovery tube 13 in cold 14, described cooling medium outlet tube 12 and cooling are situated between The parallel side being positioned at evaporation circulating cooling machine 14 of matter recovery tube 13, one end of described cooling medium outlet tube 12 is followed by evaporation Ring refrigeration machine 14 connects for fixing, and the other end of described cooling medium outlet tube 12 runs through engine space 2 and cooling medium heat exchanger 11 connect for fixing, and one end of described cooling medium recovery tube 13 is connected for fixing by evaporation circulating cooling machine 14, described cold But the other end of dielectric film filter pipe 13 runs through engine space 2 with cooling medium heat exchanger 11 is fixing connection.The material of described pedestal 1 For cast iron.The material of described engine space 2 is ferrum nacelle.The material of described cooling medium extraction tube 9 is PVC plastic pipe.Described cold But the material of medium conveying pipe group 10 is PVC plastic pipe.The material of described cooling medium outlet tube 12 is iron pipe.Described cooling is situated between The material of matter recovery tube 13 is iron pipe.The material of described cooling medium return duct group 18 is PVC plastic pipe.

Working method: first this device under operation time, power blade 4 starts to rotate under the drive of wind, can be by Gear in gear-box heat exchanger 3 carries out transmission, power can being transferred on electromotor 6 through gearing shaft 5, vaporization cycle Cooling medium in refrigeration machine 14 can enter in the cooling medium heat exchanger 11 engine space 2 from cooling medium outlet tube 12, By circulating pump 8, the cooling medium in cooling medium heat exchanger 11 is extracted, reach gear-box through cooling medium conveying pipe group 10 In heat exchanger 3, electromotor heat exchanger 7 and control frequency conversion heat exchanger 16.Through these parts, the heat that will produce with upper-part Take away, big calorimetric can be produced owing to controlling frequency conversion heat exchanger 16 in the course of the work, thus control on frequency conversion heat exchanger 16 equipped with One auxiliary radiating device, controls frequency conversion radiator 17 and can help to carry out dredging of heat, and other heats produced are through supercool But medium back flow pipe group 18 and cooling medium recovery tube 13 flow back in evaporation circulating cooling machine 14, carry out heat exchange therein And cooling.Then all parts in engine space 2 is being carried out next round circulation.Evaporation circulating cooling machine 14 is positioned over engine space The outside of 2, it is simple to heat radiation.This mechanism ensure that under particular job environment, the operation that each parts of unit can be long-term, stable； And also high-power cooling requirement can be met, there is the features such as refrigerating capacity is big, regulating power strong, good stability, can be suitably used for Various types of wind generator sets and device.

Above one embodiment of the present of invention is described in detail, but described content has been only the preferable enforcement of the present invention Example, it is impossible to be considered the practical range for limiting the present invention.All impartial changes made according to the present patent application scope and improvement Deng, within all should still belonging to the patent covering scope of the present invention.

Claims (4)

1. the wind generator set with evaporation-cooled device, it is characterised in that: by pedestal, engine space, gear-box heat exchange Device, power blade and evaporation circulating cooling machine composition, described engine space is positioned at the top of pedestal, and described engine space and pedestal are solid Fixed connection, described gear-box heat exchanger is positioned at the top of engine space, and described gear-box heat exchanger is connected for fixing with engine space, institute Stating power blade and be positioned at the side of gear-box heat exchanger, described power blade is connected for fixing with gear-box heat exchanger, described master The inside in cabin is additionally provided with gearing shaft, electromotor, electromotor heat exchanger, circulating pump, cooling medium heat exchanger, controls frequency conversion Device and control frequency conversion heat exchanger, described gearing shaft is positioned at the bottom of gear-box heat exchanger, described gearing shaft and gear Case heat exchanger connects for fixing, and described electromotor is positioned at the bottom of gearing shaft, and described electromotor and gearing shaft are solid Fixed connection, described electromotor heat exchanger is positioned at the bottom of electromotor, and described electromotor heat exchanger is connected for fixing with electromotor, institute Stating cooling medium heat exchanger and be positioned at the bottom of engine space, described cooling medium heat exchanger is connected for fixing with pedestal, described cooling Being additionally provided with cooling medium extraction tube and cooling medium return duct group on media heat exchanger, one end of described cooling medium extraction tube leads to Supercooling media heat exchanger connects for fixing, and the other end of described cooling medium extraction tube is connected for fixing by circulating pump, institute State circulating pump and be positioned at the top of cooling medium heat exchanger, described circulating pump is additionally provided with cooling medium conveying pipe group, described cooling One end of medium conveying pipe group is connected for fixing by circulating pump, and the other three port of described cooling medium conveying pipe group leads to respectively Crossing gear-box heat exchanger, electromotor heat exchanger and control frequency conversion heat exchanger to connect for fixing, described control converter is positioned at cooling The side of media heat exchanger, described control converter is connected for fixing with pedestal, and described control frequency conversion heat exchanger is positioned at control and becomes Frequently the top of device, described control frequency conversion heat exchanger is connected for fixing with controlling converter, described control frequency conversion heat exchanger also sets Having control frequency conversion radiator, described control frequency conversion radiator is positioned at the top controlling frequency conversion heat exchanger, and described control frequency conversion is dispelled the heat Device is connected for fixing with controlling frequency conversion heat exchanger, and one end of described cooling medium return duct group is solid by cooling medium heat exchanger Fixed connection, the other three port of described cooling medium return duct group is respectively by gear-box heat exchanger, electromotor heat exchanger and control Frequency conversion heat exchanger processed connects for fixing, and described evaporation circulating cooling machine is positioned at the side of engine space, described evaporation circulating cooling machine It is connected for fixing with pedestal, described evaporation circulating cooling machine is additionally provided with cooling medium outlet tube and cooling medium recovery tube, institute Stating the cooling medium outlet tube side that be positioned at evaporation circulating cooling machine parallel with cooling medium recovery tube, described cooling medium exports One end of pipe is connected for fixing by evaporation circulating cooling machine, and the other end of described cooling medium outlet tube runs through engine space with cold But media heat exchanger connects for fixing, and one end of described cooling medium recovery tube is connected for fixing by evaporation circulating cooling machine, The other end of described cooling medium recovery tube runs through engine space and is connected for fixing with cooling medium heat exchanger；

The material of described pedestal is cast iron；

The material of described engine space is ferrum nacelle；

The material of described cooling medium extraction tube is PVC plastic pipe；

The material of described cooling medium conveying pipe group is PVC plastic pipe.

A kind of wind generator set with evaporation-cooled device, it is characterised in that: described cooling The material of medium outlet tube is iron pipe.

A kind of wind generator set with evaporation-cooled device, it is characterised in that: described cooling The material of dielectric film filter pipe is iron pipe.

A kind of wind generator set with evaporation-cooled device, it is characterised in that: described cooling The material of medium back flow pipe group is PVC plastic pipe.