CN102882355B - Integrated wind power converter closed water-cooling heat dissipation device - Google Patents

Abstract

The invention discloses an integrated wind power converter closed water-cooling heat dissipation device, which comprises a converter, a first sensor, a three-way valve, a second sensor and a water-cooling radiator, wherein the converter, the first sensor, the three-way valve and the cooled part are arranged in a tower barrel; the water-cooling radiator is connected to the right port of the three-way valve and the second sensor. In the integrated wind power converter closed water-cooling heat dissipation device, the converter, the water pump and the water-cooling heat dissipation device are integrated into one device, so that the integrated wind power converter closed water-cooling heat dissipation device is integrally transported and installed, and the cost is saved. Meanwhile, the water-cooled radiator is arranged in the tower barrel, so that the pollution of outdoor noise is reduced, and the radiating effect of the radiator is enhanced.

Description

Integral type wind electric converter closed water-cooled heat abstractor

Technical field

The present invention and a kind of heat abstractor, particularly a kind of integral type wind electric converter closed water-cooled heat abstractor.

Background technology

As shown in Figure 1, in existing water-cooled unsteady flow wind-powered electricity generation set, is generally furnished with current transformer 1, Water-cooled cabinet 2 and water-filled radiator 3. Wherein current transformer 1 and Water-cooled cabinet 2 are placed in tower bucket 4, and water-filled radiator 3 is placed in outside tower bucket 4. The water route of three equipment rooms connects (thick black line in figure) by rubber hose. The design of this device need to be water-filled radiator more than 3 expropriations of land, waste resource.

As shown in Figure 3, the structural devices such as circulating line, water pump 5, triple valve 7, first sensor 8 and the second sensor 9 are housed in the system of existing water-cooled unsteady flow wind set in Water-cooled cabinet 2. Also be provided with at least 4 flange-interfaces 101,102,103,104, in device, pipeline is many simultaneously, connects more complicated. The shortcoming of this design is also, Water-cooled cabinet 2 need to be set separately. Simultaneously because water-filled radiator 3 is placed in outside tower bucket 4, can produce fan and rotate the noise pollution and the solar irradiation that bring and hinder the problem of dispelling the heat.

Summary of the invention

In view of this, the technical problem to be solved in the present invention is to provide a kind of integral type wind electric converter closed water-cooled heat abstractor, in described heat abstractor, current transformer, water pump, water-filled radiator is integrated into an equipment, and whole Transporting and installation are cost-saving. Reduce the pollution of outdoor noise simultaneously, strengthened the radiating effect of radiator.

For solving the problems of the technologies described above, technical scheme of the present invention is achieved in that a kind of integral type wind electric converter closed water-cooled heat abstractor, described heat abstractor comprises the current transformer being arranged in tower bucket, first sensor, triple valve, the second sensor, water-filled radiator, in this current transformer, be provided with cooled piece, described first sensor, the second sensor, triple valve is all arranged in described current transformer, in described current transformer, be also connected with water pump, described water-filled radiator is arranged on this converter cabinet top, and described cooled piece, water pump, first sensor, the left mouth of triple valve, the end opening of triple valve, the second sensor is in turn connected to form loop, this water-filled radiator is connected on the right mouth and the second sensor of described triple valve.

As preferred version, described water-filled radiator is arranged on the back of described current transformer.

The technique effect that the present invention reaches is as follows: integral type wind electric converter closed water-cooled heat abstractor of the present invention is integrated into an equipment current transformer, water pump, water-filled radiator, and material is saved in integral installation and transport, reduces costs. Reduce outdoor noise pollution simultaneously, strengthened the radiating effect of radiator.

Brief description of the drawings

Fig. 1 is the layout of existing water-cooled unsteady flow wind set;

Fig. 2 is the layout of integral type wind electric converter closed water-cooled heat abstractor of the present invention;

Fig. 3 is the system schematic of existing water-cooled unsteady flow wind set;

Fig. 4 is the system schematic of integral type wind electric converter closed water-cooled heat abstractor of the present invention;

Fig. 5 is integral type wind electric converter closed water-cooled heat abstractor back loading type layout of the present invention.

Detailed description of the invention

The layout that is illustrated in figure 2 integral type wind electric converter closed water-cooled heat abstractor of the present invention, this heat abstractor comprises current transformer 1 and water-filled radiator 3, the interior connection water pump 5 of current transformer 1, water-filled radiator 3 is placed in the cabinet top of current transformer 1. Wherein, the cabinet of current transformer 1 top has fixed support 12 to provide support to water-filled radiator 3. The water route of three equipment rooms connects (thick black line in Fig. 2) by rubber hose. On tower bucket 4, be provided with passage 6, strengthen the heat sinking function of integral type wind electric converter closed water-cooled heat abstractor of the present invention.

Be illustrated in figure 4 the system schematic of integral type wind electric converter closed water-cooled heat abstractor of the present invention, be in turn connected to form loop at the left mouth 71 of the interior cooled piece 11 of current transformer 1, water pump 5, first sensor 8, triple valve 7, left mouth 73 and second sensor 9 of triple valve 7. The water-filled radiator 3 that is positioned at current transformer 1 cabinet top is connected on right mouthful 72 of triple valve 7, the second sensor 9, and on the pipeline being communicated with at water-filled radiator 3, be provided with two flange-interfaces 105,106, and design has reduced pipeline connection unnecessary in device like this.

Water-filled radiator 3 and current transformer 1 are all placed in tower bucket 4, and the noise of the cooling fan of water-filled radiator 3 is stopped by tower bucket 4, have reduced outdoor noise pollution.

Be illustrated in figure 5 integral type wind electric converter closed water-cooled heat abstractor back loading type layout of the present invention, water-filled radiator 3 can be arranged on the cabinet top of current transformer 1, but for the conditional application scenario of short transverse, water-filled radiator 3 can be installed on depth direction, for example water-filled radiator 3 can be arranged on the back of current transformer 1, has fixed bearing 13 to provide a supporting role to water-filled radiator 3 between current transformer 1 and water-filled radiator 3.

In addition, water-filled radiator 3 also can be taken placement apart, on the platform of all right tower bucket 4 interior higher levels, and still upwards air-out.

In water-filled radiator 3, change cooling medium into phase change medium by water and ethylene glycol mixture, as freon, water pump 5 is replaced into the freon pump that can adapt with freon. The benefit of this scheme is, greatly increases heat exchange efficiency, reduction cold drawing size, and then reduce cabinet size.

The advantage of integral type wind electric converter closed water-cooled heat abstractor of the present invention is:

1) the package unit degree of simplifying improves, and is integrated into an equipment by original three equipment current transformers 1, Water-cooled cabinet 2 and water-filled radiator 3. Can accomplish integral installation, whole Transporting, reduces the manpower and materials that lift link. Reduce the interior unnecessary pipeline of former Water-cooled cabinet 2, save material cost.

2) reduce outdoor water-filled radiator 3 to the taking of land area, thereby reduce expropriation of land cost.

3) reduce outdoor noise. Because water-filled radiator 3 has been placed in tower bucket 4, the noise of cooling fan stopped by tower bucket 4, and outdoor noise will significantly reduce.

4) be placed on the cabinet top of current transformer 1 due to water-filled radiator 3, upwards air inducing, so 1 cabinet shell moment of current transformer and cold air carry out heat exchange, can help current transformer 1 to dispel the heat.

5) stack effect can help thermal current upwards to flow. Accelerate the heat transfer process of water-filled radiator 3.

The above, be only preferred embodiment of the present invention, is not intended to limit protection scope of the present invention.

Claims (2)

1. an integral type wind electric converter closed water-cooled heat abstractor, described heat abstractor comprises the current transformer being arranged in tower bucket, first sensor, triple valve, the second sensor, water-filled radiator, in this current transformer, be provided with cooled piece, it is characterized in that, described first sensor, the second sensor, triple valve is all arranged in described current transformer, in described current transformer, be also connected with water pump, described water-filled radiator is arranged on this converter cabinet top, and the fixed support pushing up by converter cabinet provides support this water-filled radiator, and described cooled piece, water pump, first sensor, the left mouth of triple valve, the end opening of triple valve, the second sensor is in turn connected to form loop, this water-filled radiator is connected on the right mouth and the second sensor of described triple valve, and described tower bucket is provided with passage,

On the pipeline being communicated with at described water-filled radiator, be provided with two flange-interfaces, it is cooling medium that described water-filled radiator adopts freon; Water route between described current transformer, water pump, water-filled radiator connects by rubber hose, in described water-cooling heat radiating device, described current transformer, water pump, water-filled radiator is integrated into an equipment.

2. integral type wind electric converter closed water-cooled heat abstractor according to claim 1, is characterized in that, described water-filled radiator is arranged on the back of described current transformer.