CN112524098A - Filter device, wind generating set cooling system and wind generating set - Google Patents

Abstract

The invention discloses a filtering device, a wind generating set cooling system and a wind generating set, wherein the filtering device is used in an air cooling system of the wind generating set and comprises an air inlet pipeline, an air guiding device and a fan, the air guiding device comprises an annular air guiding channel with an opening at the top, the air inlet pipeline is communicated with the annular air guiding channel, the annular air guiding channel is configured to enable air flowing into the annular air guiding channel from the air inlet pipeline to spirally flow along the axial direction of the annular air guiding channel, an air outlet of the filtering device is positioned at one side of the opening at the top of the annular air guiding channel, and the fan is arranged at the air outlet. According to the filtering device, the cooling system of the wind generating set and the wind generating set, provided by the invention, the filter screen is replaced by a cyclone flow mode, sand and dust in air are thrown out by centrifugal force and fall and deposit, so that the flow velocity of air flow in an air cooling pipeline of the cooling system of the wind generating set is not reduced due to the influence of the filtering device, and the cooling effect on an engine room and a hub is ensured.

Description

Filter device, wind generating set cooling system and wind generating set

Technical Field

The invention relates to the field of wind driven generators, in particular to a filtering device, a cooling system of a wind driven generator set and the wind driven generator set.

Background

When the wind generating set is in operation, each important part in the wind generating set can generate a large amount of heat due to operation or loss of the wind generating set, and particularly, each part and system are positioned in relatively closed space such as a cabin. The heat in this space needs to be discharged in time to guarantee that the part normally operates under the environment in the safe temperature, otherwise can influence the life-span of part, lead to appearing damaging or becoming invalid, can cause the serious accident that the unit burns out even because of high temperature environment.

Therefore, a special cooling system is usually provided in the assembly. The cooling system may be a liquid cooling device disposed on a surface of the heat generating component, or an air cooling system formed inside the cabin and capable of communicating with the outside and exchanging with the outside cold air. Because the air cooling needs to suck the outside cold air into the cabin, in order to ensure that the cooling air does not influence the normal operation of the components in the cabin, the outside cooling air needs to be filtered and then enters the cabin. On the basis, the cooling air needs to overcome the resistance caused by the change of the trend of the internal pipeline of the cooling part and the resistance of the filtering device, so that the air volume of the cooling fan is reduced, and the cooling effect is greatly reduced. On this basis, if the cooling effect is to be guaranteed, the power of the driving fan needs to be increased, the heating is more serious due to the increase of the fan power, and the improvement of the cooling effect cannot be predicted to have a better effect.

Disclosure of Invention

The invention aims to overcome the defect that an air cooling system in the prior art uses a filtering device to affect the cooling effect, and provides a filtering device, a wind generating set cooling system and a wind generating set.

The invention solves the technical problems through the following technical scheme:

the utility model provides a filter equipment, its is arranged in wind generating set's air cooling system, its characterized in that, filter equipment includes air inlet pipeline, air ducting and fan, air ducting includes open-top's annular wind-guiding passageway, air inlet pipeline communicate in annular wind-guiding passageway, annular wind-guiding passageway configuration is so by air inlet pipeline flows in air in the annular wind-guiding passageway is followed annular wind-guiding passageway's axial carries out spiral flow, filter equipment's air outlet is located annular wind-guiding passageway's open-top one side, the fan set up in air outlet department.

The filter device has no structure similar to a filter screen, the filter device filters air in a mode of making the air flow in a cyclone manner, when the air flow does high-speed spiral motion along the annular air guide channel, the sand and dust with larger movement inertia is thrown to the side wall of the annular air guide channel by centrifugal force, falls to the bottom of the annular air guide channel after the sand and dust collide, and does not flow out of the filtering device from the top opening of the annular air guide channel following the high-speed airflow, and because the structure similar to a filter screen is not provided, therefore, when the air flows through the filter device, the flow speed of the air flow can not be reduced due to the increase of the resistance, namely, the cooling effect of the original cooling air is ensured, in addition, compared with a conventional air inlet mode, the spiral air flow can also improve the flow velocity of cooling air, and the cooling effect when the cooling air flows is further ensured.

Preferably, the filtering device includes a cylindrical housing, an air duct is fixedly disposed inside the housing, the air duct is disposed coaxially with the housing, an annular gap between the air duct and the housing forms the annular air guiding channel, and one end of the air inlet pipeline is connected to a side wall of the housing. The filtering device is provided with an air duct through a shell, an annular air guide channel is formed through a sleeve structure, the air inlet pipeline is directly connected to the side wall of the shell, namely, the inner annular air guide channel is communicated, the structural arrangement of the filtering device is facilitated, the whole structure is simple, the integration level is high, the occupied space is small, the placement in the wind generating set is facilitated, and the requirement on the space in the cabin is low.

Preferably, a connecting plate is arranged inside the shell, the air duct and the shell are fixed through the connecting plate, and a plurality of air outlets are formed in the surface of the connecting plate. The casing and the air duct are fixed to each other through the connecting plate, the stability of the annular air guide channel is guaranteed, and in addition, the air outlet is formed in the surface of the connecting plate, so that the normal flow of air inside the filtering device cannot be influenced by the arrangement of the connecting plate.

Preferably, the bottom of the annular air guide channel is provided with an impurity discharge port, the bottom of the filtering device is provided with an impurity collecting part, the impurity discharge port faces the inside of the impurity collecting part, at least one part of the impurity collecting part is detachable relative to the filtering device, or the bottom of the impurity collecting part is provided with a cleaning port capable of closing and opening the filtering device. Annular wind-guiding passageway's bottom sets up impurity collection portion, can conveniently use a period of back at filter equipment, clear up its inside, with the impurity discharge filter equipment's of filtering inside, avoid it to pile up too much influence annular wind-guiding passageway's normal use, and for conventional filter screen, this filter equipment can not block annular wind-guiding passageway, influence the air current velocity of flow, so cooling air's cooling effect has been guaranteed, and the clearance cycle of impurity collection portion is longer, do not need maintainer often to dismantle the clearance.

Preferably, the impurity collecting part includes an impurity guide wall and a collecting platform, the impurity guide wall is disposed on one side of the impurity discharging port far from the annular air guiding channel, the impurity guide wall encloses and forms an impurity guide channel, a top opening of the impurity guide channel faces the impurity discharging port, a bottom opening of the impurity guide channel faces the collecting platform, and the collecting platform is detachable with respect to the filtering device, or the cleaning port is located on the collecting platform. Impurity guide wall encloses the both ends of establishing the impurity guide channel of formation and moves towards annular air guide channel and collection platform respectively, can stretch the distance between annular air guide channel and the impurity on the one hand, avoids in small part impurity is brought into the air that flows out filter equipment, and on the other hand, impurity guide channel is used for guiding the direction of impurity whereabouts, is convenient for collect, makes things convenient for follow-up clearance.

Preferably, one end of the top of the impurity guide wall is connected to the inner side wall of the outer shell, the impurity guide wall surrounds to form a tapered cavity, and the cross-sectional area of the tapered cavity is gradually reduced towards the direction away from the annular air guide channel. The impurity guide channel is conical, so that impurities can be conveniently guided and accumulated.

Preferably, the bottom of the filter device is provided with a one-way valve, and the one-way valve defines a direction in which air inside the filter device flows to the outside. The setting of check valve can be discharged the air of the direction of small part flow direction filter equipment bottom, keeping away from the air outlet promptly, outside air can not get into inside the filter equipment from this place simultaneously, avoids influencing the air current in the annular wind-guiding passageway.

Preferably, the filter device further comprises a fine filter assembly, the fine filter assembly comprises a plurality of conical separation cylinders and an air flow channel, one end of the bottom of the air flow channel faces the top opening, the conical separation cylinders are arranged along the axial direction of the air flow channel and are coaxially arranged with the air flow channel, and a secondary air filtering channel is formed between the inner wall of the air flow channel and the side wall of the conical separation cylinder. The fine filtration subassembly has set up to carry out secondary filter to the air that flows annular wind-guiding passageway, divides to manage more and adds tiny dust, can also form a plurality of cyclones simultaneously, promotes the speed of air current by a wide margin, has not only promoted filterable precision and effect, can also promote the cooling effect of air current to a certain extent.

Preferably, one end of the bottom of the airflow channel is provided with an impurity receiving disc, one side of the impurity receiving disc is connected to the inner side wall of the airflow channel, and the other side of the impurity receiving disc extends towards the axis of the airflow channel. The impurity receiving disc is arranged to receive fine impurity dust falling from the air flow channel.

Preferably, a filter screen is covered at one end of the bottom of the airflow channel or at the top opening of the annular air guide channel. The filter screen is additionally arranged at the position, so that the filtering effect can be improved, the filter screen can use the common filtering effect, and the influence on the air flow speed is reduced.

Preferably, one end of the air inlet pipeline, which is communicated with the annular air guide channel, is tapered, and the cross-sectional area of the taper gradually decreases in a direction close to the annular air guide channel. The end of the air inlet pipeline connected to the annular air guide channel is provided with a tapered necking shape, so that the speed of air flow entering the annular air guide channel can be increased, and the air cooling effect can be improved.

Preferably, the axial direction of the air inlet pipeline extends along the tangential direction of the annular air guide channel. The air inlet pipeline extends along the tangential direction of the annular air guide channel, so that air directly flows along the annular direction after entering the annular air guide channel, and the spiral air flow is smoother.

The utility model provides a wind generating set cooling system, its includes air cooling pipeline and drive arrangement, the inside of wind generating set's cabin and wheel hub is laid to at least some of air cooling pipeline, the air intake and the air outlet intercommunication of air cooling pipeline are to the external world, drive arrangement connect in the air cooling pipeline for the drive the inside air flow of air cooling pipeline, its characterized in that, wind generating set cooling system include as above filter equipment, filter equipment set up in the air intake department of air cooling pipeline.

This wind generating set cooling system has used foretell filter equipment, make the air current velocity of flow in its air cooling pipeline can not receive filter equipment's influence and lead to reducing, thereby guaranteed the cooling effect to cabin and wheel hub, on this basis, just need not increase filter equipment's size and improve the problem that the driving force reduces in order to solve the cooling air current velocity of flow, also need not change the inside mode of laying in cabin and come to provide bigger setting space for filter equipment, the design cost is simplified, save time and manpower, the economic nature improves.

Preferably, the air-cooling pipeline includes a nacelle branch pipeline and a hub branch pipeline, air inlets of the nacelle branch pipeline and the hub branch pipeline are both communicated with an air outlet of the filtering device, the nacelle branch pipeline is located inside the nacelle, and a part of the hub branch pipeline is located inside the hub. Get into the inside air cooling pipeline in cabin and get into the air cooling pipeline in the wheel hub and branch, can make comparatively microthermal air can directly get into wheel hub inside and cool down, improved the cooling effect, avoid setting up single air cooling pipeline and get into wheel hub again through the inside heating element in cabin and make its not good condition to the inside cooling effect of wheel hub, improved the holistic cooling effect of cooling system.

A wind power plant characterized in that it comprises a wind power plant cooling system as described above.

On the basis of the common knowledge in the field, the above preferred conditions can be combined randomly to obtain the preferred embodiments of the invention.

The positive progress effects of the invention are as follows:

the filtering device, the cooling system of the wind generating set and the wind generating set provided by the invention have the advantages that the filtering device adopts a cyclone flow mode, sand and dust in air are thrown onto the side wall of the annular air guide channel through centrifugal force and then fall and are discharged to the bottom of the annular air guide channel, and the sand and dust cannot flow out of the filtering device from the top opening of the annular air guide channel along with high-speed airflow, so that a structure similar to a filter screen in the traditional filtering device is not adopted, the flow rate of the airflow cannot be reduced due to increased resistance, the original cooling effect of the cooling air is ensured, the flow rate of the airflow in an air cooling pipeline of the cooling system of the wind generating set cannot be reduced due to the influence of the filtering device through the arrangement, the cooling effect on an engine room and a hub is ensured, and on the basis, the driving capability is improved without increasing the size of the filtering device to solve the problem of the reduction, the arrangement mode in the cabin is not required to be changed to provide larger arrangement space for the filtering device, the design cost is simplified, the time and the labor are saved, and the economy is improved.

Drawings

Fig. 1 is a schematic structural view of a wind turbine generator system according to embodiment 1 of the present invention.

Fig. 2 is a schematic structural view of a filter device according to embodiment 1 of the present invention.

Fig. 3 is a schematic cross-sectional view of a filter device according to embodiment 1 of the present invention.

Fig. 4 is a schematic sectional view showing a filter device and a fine filter assembly according to example 2 of the present invention.

Fig. 5 is a schematic structural view of a wind turbine generator system according to embodiment 3 of the present invention.

Description of reference numerals:

filter device 1

Annular air guide channel 1a

Impurity guide passage 1b

Air flow 10

Direction of movement 20 of the impurities

Air inlet pipeline 11

Outer casing 12

Air duct 13

Fan 14

Connecting plate 15

Impurity guide wall 16

Collecting platform 17

Fine filter assembly 2

Conical separation cylinder 21

Airflow channel 22

Impurity receiving tray 23

Air cooling pipeline 3

Nacelle branch pipe 31

Hub branch pipeline 32

Drive device 4

Nacelle 5

Hub 6

Detailed Description

The present invention will be more clearly and completely described below by way of 3 preferred embodiments in conjunction with the accompanying drawings, without thereby limiting the scope of the invention to the embodiments described.

Example 1

As shown in fig. 1 to 3, the present embodiment provides a filtering device 1, a cooling system of a wind turbine generator system, and a wind turbine generator system. Wherein, filter equipment 1 is arranged in this wind generating set cooling system, filter equipment 1 specifically includes air inlet pipeline 11, air ducting and fan 14, air ducting includes open-top's annular wind-guiding passageway 1a, air inlet pipeline 11 communicates in annular wind-guiding passageway 1a, and annular wind-guiding passageway 1a configures to and makes the air that flows into annular wind-guiding passageway 1a by air inlet pipeline 11 can carry out spiral flow along annular wind-guiding passageway 1 a's axial, filter equipment 1's air outlet is located annular wind-guiding passageway 1 a's open-top one side, fan 14 sets up in air outlet department.

The filtering device 1 has no structure similar to a filter screen, adopts a mode of making air flow in a cyclone mode, when the air flow makes high-speed spiral motion along the annular air guide channel 1a, the sand and dust with larger movement inertia is thrown to the side wall of the annular air guide channel 1a through centrifugal force, the sand and dust fall to the bottom of the annular air guide channel 1a after collision, and does not flow out of the filter device 1 from the top opening of the annular air guiding passage 1a following the high-speed air flow, because of no structure similar to a filter screen, so that when the air flows through the filter device 1, the flow speed of the air flow is not reduced due to the increase of the resistance, namely, the cooling effect of the original cooling air is ensured, in addition, compared with a conventional air inlet mode, the spiral air flow can also improve the flow velocity of cooling air, and the cooling effect when the cooling air flows is further ensured.

The fan 14 can be selected from an axial flow fan 14 and a centrifugal fan 14, the selection of the fan 14 depends on the internal resistance of the system and the arrangement of the whole structure, in this embodiment, the centrifugal fan 14 is selected, and of course, in other embodiments, other types of fans 14 can be used.

Further, the filter device 1 further comprises a housing 12. The casing 12 is cylindrical, an air duct 13 is fixedly arranged inside the casing 12, the air duct 13 is coaxially arranged with the casing 12, an annular gap between the air duct 13 and the casing 12 forms an annular air guiding channel 1a, and one end of the air inlet pipeline 11 is connected to the side wall of the casing 12. Filter equipment 1 is through a shell 12 to at its inside air duct 13 that sets up, form annular wind-guiding passageway 1a through the mode of sleeve structure promptly, air-supply line 11 is direct to link to and has been linked to inside annular wind-guiding passageway 1a promptly on the lateral wall of shell 12, does benefit to filter equipment 1's structural arrangement, holistic simple structure, and the integrated level is higher, and occupation space is little, does benefit to and places in wind generating set inside, and the space requirement in cabin 5 is lower. Preferably, in the present embodiment, the axial direction of the air intake duct 11 extends along the tangential direction of the annular air guiding passage 1 a. The air inlet pipeline 11 extends along the tangential direction of the annular air guide channel 1a, so that air directly flows along the annular direction after entering the annular air guide channel 1a, and the spiral air flow is smoother. The axial direction of the air inlet duct 11 refers to the direction of the air flow 10 in the air inlet duct 11.

In this embodiment, a connecting plate 15 is further disposed inside the casing 12, the air duct 13 and the casing 12 are fixed by the connecting plate 15, and a plurality of air outlets are disposed on a surface of the connecting plate 15. The casing 12 and the air duct 13 are fixed to each other through the connecting plate 15, so that the stability of the annular air guide channel 1a is ensured, and in addition, the surface of the connecting plate 15 is provided with an air outlet, so that the normal flow of air inside the filtering device 1 is not influenced by the arrangement of the connecting plate 15. Preferably, the connecting plate 15 is an annular plate with a plurality of holes on the surface, the plane of the annular plate is perpendicular to the axial direction of the air duct 13, and the inner side and the outer side of the annular plate are respectively fixed to the inner side wall of the casing 12 and the outer side wall of the air duct 13.

The bottom of the annular air guide channel 1a of the filtering device 1 is provided with an impurity discharge port, the bottom of the filtering device 1 is provided with an impurity collecting part, the impurity discharge port faces the impurity collecting part, at least one part of the impurity collecting part can be detached relative to the filtering device 1, or the bottom of the impurity collecting part is provided with a cleaning port capable of closing and opening the filtering device 1. Set up impurity collection portion and can use a period after filter equipment 1, can clear up its inside, will fall impurity collection portion's impurity discharge filter equipment 1's inside, avoid it to pile up too much influence annular wind-guiding passageway 1 a's normal use, and for conventional filter screen, this filter equipment 1 can not block annular wind-guiding passageway 1a, influence the air current 10 velocity of flow, so cooling air's cooling effect has been guaranteed, and impurity collection portion's clearance cycle is longer, do not need the maintainer to dismantle the clearance often.

Further, the impurity collecting part comprises an impurity guide wall 16 and a collecting platform 17, the impurity guide wall 16 is arranged on one side of the impurity discharging port far away from the annular air guide channel 1a, the impurity guide wall 16 encloses and forms an impurity guide channel 1b, the top opening of the impurity guide channel 1b faces the impurity discharging port, the bottom opening of the impurity guide channel 1b faces the collecting platform 17, and the collecting platform 17 is detachable relative to the filtering device 1, or the cleaning port is positioned on the collecting platform 17. Impurity guide wall 16 encloses the both ends of establishing the impurity guide passageway 1b that forms and respectively towards annular wind-guiding passageway 1a and collection platform 17, can stretch the distance between annular wind-guiding passageway 1a and the impurity on the one hand, avoids a small part impurity to be brought into in the air that flows out filter equipment 1, and on the other hand, impurity guide passageway 1b is used for guiding the direction of impurity whereabouts, is convenient for collect, makes things convenient for follow-up clearance.

Collection platform 17 can be dismantled for filter equipment 1 to when clearance impurity, directly through dismantling collection platform 17, can clear up all accumulational impurity. The collection platform 17 as a whole corresponds to the cleaning opening. In order to realize better disassembly and the convenient and quick effect of cleaning, in this embodiment, the collection platform 17 is set to be a valve which can be manually opened or closed or an electric valve which can be opened or closed through circuit control at the same time, and the collection platform can be turned over to be opened or opened in a translation manner, so long as the convenient cleaning effect can be realized. In particular, the details of the related structure or control system of the collection platform 17 are well known in the art and therefore will not be described herein.

Preferably, in the present embodiment, one end of the top of the impurity guiding wall 16 is connected to the inner side wall of the outer casing 12, and the impurity guiding wall 16 encloses to form a tapered cavity, and the cross-sectional area of the tapered cavity gradually decreases in a direction away from the annular air guiding channel 1 a. The impurity guide passage 1b is tapered to guide and accumulate impurities, so that the impurities can fall along the inner surface of the taper in the movement direction 20, and the impurities can be conveniently guided to be collected. In addition, the top of the impurity guide wall 16 is connected to the inner side wall of the housing 12, so that the discharge range of the impurity discharge port can be covered, and dust or impurities can be prevented from entering some gaps inside the structure and affecting the normal use of the structure.

On the basis of the above structure, preferably, in other embodiments, the bottom of the filtering device 1 may further be provided with a one-way valve, and the one-way valve is an air valve, and the one-way valve is defined in a direction that allows air inside the filtering device 1 to flow to the outside, and the outside air cannot enter the inside of the filtering device 1. The setting of check valve can be discharged the air of the direction that the air outlet was kept away from to a small part of stream flow direction filter equipment 1 bottom promptly, and outside air can not get into filter equipment 1 inside from this simultaneously, avoids influencing the air current in annular wind-guiding passageway 1 a. In this embodiment, the collection platform 17 may be made to function as a one-way valve. How to realize the unidirectional air flow limitation is the prior art, and therefore, the description is not repeated herein.

In addition, a filter screen (not shown) may be covered at the top opening of the annular air guiding passage 1 a. The filter screen is additionally arranged at the position, so that the filtering effect can be improved, the filter screen can use the common filtering effect, and the influence on the air flow speed is reduced. Of course, in other embodiments, no screen structure may be provided to avoid affecting the flow rate of the airflow.

Preferably, in this embodiment, one end of the air inlet duct 11 of the filter device 1, which is communicated with the annular air guiding channel 1a, may be provided with a conical shape, and the cross-sectional area of the conical shape gradually decreases in a direction approaching to the annular air guiding channel 1 a. One end of the air inlet pipeline 11 connected to the annular air guide channel 1a is provided with a tapered necking shape, so that the speed of the air flow 10 entering the annular air guide channel 1a can be increased, and the air cooling effect can be improved.

The embodiment also provides a wind generating set cooling system, it includes air cooling pipeline 3, drive arrangement 4 and foretell filter equipment 1, and wind generating set's cabin 5 and wheel hub 6's inside is laid to at least some of air cooling pipeline 3, and the air intake and the air outlet of air cooling pipeline 3 communicate to the external world, and filter equipment 1 sets up in the air intake department of air cooling pipeline 3, and drive arrangement 4 is connected in air cooling pipeline 3 for the inside air flow of drive air cooling pipeline 3.

This wind generating set cooling system has used foretell filter equipment 1, make the air current velocity of flow in its air cooling pipeline 3 can not receive filter equipment 1's influence and lead to reducing, thereby guaranteed the cooling effect to cabin 5 and wheel hub 6, on this basis, just need not increase filter equipment 1's size and improve the problem that the driving capability reduces in order to solve the cooling air current velocity of flow, also need not change cabin 5 inside the mode of laying and come to provide bigger setting space for filter equipment 1, design cost is simplified, save time and manpower, economy improves. In the present embodiment, the filtering device 1 is disposed at the tail of the nacelle 5, and in other embodiments, the filtering device 1 may be disposed at other positions of the wind turbine.

The embodiment also provides a wind generating set, and the cooling system of the wind generating set is applied to the wind generating set.

Example 2

As shown in fig. 4, the structural arrangement of the present embodiment is substantially the same as that of embodiment 1, except that: the filter device 1 further comprises a fine filter assembly 2. The fine filtering component 2 comprises a plurality of conical separating cylinders 21 and an air flow channel 22, one end of the bottom of the air flow channel 22 faces the top opening, the conical separating cylinders 21 are arranged along the axial direction of the air flow channel 22 and are coaxially arranged with the air flow channel 22, and a secondary air filtering channel is formed between the inner wall of the air flow channel 22 and the side wall of the conical separating cylinders 21. The fine filter assembly 2 is arranged to secondarily filter the air flowing out of the annular air guide channel 1a, so that the fine dust is separated and treated, meanwhile, a plurality of cyclones can be formed, the speed of the air flow 10 is greatly increased, the filtering precision and effect are improved, and the cooling effect of the air flow 10 can be improved to a certain degree. Preferably, in this embodiment, an inverted funnel-shaped air inlet may be disposed at one end of the bottom of the air flow channel 22 to guide the air flowing out from the annular diversion channel into the air flow channel 22.

On the basis, one end of the bottom of the airflow channel 22 is further provided with an impurity receiving disc 23 (not shown in the figure), one side of the impurity receiving disc 23 is connected to the inner side wall of the airflow channel 22, and the other side of the impurity receiving disc 23 extends towards the axis of the airflow channel 22. The impurity receiving tray 23 is provided to receive fine impurity dust falling from the inside of the air flow passage 22.

In addition, a filter (not shown) may be covered at one end of the bottom of the airflow channel 22. The filter screen is additionally arranged at the position, so that the filtering effect can be improved, the filter screen can use the common filtering effect, and the influence on the air flow speed is reduced. Of course, in other embodiments, no screen structure may be provided to avoid affecting the flow rate of the airflow.

Example 3

As shown in fig. 5, the structural arrangement of the present embodiment is substantially the same as that of embodiment 1, except for the arrangement of the cooling system of the wind turbine generator set.

Specifically, in the present embodiment, the air-cooling pipeline 3 includes a nacelle 5 branch pipeline 31 and a hub 6 branch pipeline 32, air inlets of the nacelle 5 branch pipeline 31 and the hub 6 branch pipeline 32 are both communicated with an air outlet of the filtering apparatus 1, the nacelle 5 branch pipeline 31 is located inside the nacelle 5, and a portion of the hub 6 branch pipeline 32 is located inside the hub 6. Get into 5 inside air cooling pipelines in cabin 3 and get into 3 branches of air cooling pipelines in wheel hub 6, can make comparatively microthermal air can directly get into 6 insides in wheel hub and cool down, improved the cooling effect, avoid setting up single air cooling pipeline 3 and get into wheel hub 6 again through 5 inside heating element in cabin and make its not good condition to 6 inside cooling effects in wheel hub, improved the holistic cooling effect of cooling system. Of course, in other embodiments, other cooling circuits with better adaptability may be provided.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications are within the scope of the invention.

Claims (15)

1. The utility model provides a filter equipment, its is arranged in wind generating set's air cooling system, its characterized in that, filter equipment includes air inlet pipeline, air ducting and fan, air ducting includes open-top's annular wind-guiding passageway, air inlet pipeline communicate in annular wind-guiding passageway, annular wind-guiding passageway configuration is so that by air inlet pipeline flows in air in the annular wind-guiding passageway is followed annular wind-guiding passageway's axial carries out spiral flow, filter equipment's air outlet is located annular wind-guiding passageway's open-top one side, the fan set up in air outlet department.

2. The filter device according to claim 1, wherein the filter device comprises a casing, the casing is cylindrical, an air duct is fixedly arranged inside the casing, the air duct is coaxially arranged with the casing, an annular gap between the air duct and the casing forms the annular air guiding channel, and one end of the air inlet pipeline is connected to a side wall of the casing.

3. The filtering device according to claim 2, wherein a connecting plate is arranged inside the housing, the air guide duct and the housing are fixed through the connecting plate, and a plurality of air outlets are arranged on the surface of the connecting plate.

4. The filtering device as claimed in claim 2, wherein the bottom of the annular air guide channel is provided with a foreign matter discharge port, the bottom of the filtering device is provided with a foreign matter collecting portion, the foreign matter discharge port faces the inside of the foreign matter collecting portion, at least a part of the foreign matter collecting portion is detachable with respect to the filtering device, or the bottom of the foreign matter collecting portion is provided with a cleaning port capable of closing and opening the filtering device.

5. The filtering device as claimed in claim 4, wherein the impurity collecting portion includes an impurity guide wall and a collecting platform, the impurity guide wall is disposed on a side of the impurity discharging port away from the annular air guiding passage, the impurity guide wall encloses and forms an impurity guide passage, a top opening of the impurity guide passage faces the impurity discharging port, a bottom opening of the impurity guide passage faces the collecting platform, the collecting platform is detachable with respect to the filtering device, or the cleaning port is located on the collecting platform.

6. The filtering device as claimed in claim 5, wherein the top end of the impurity guiding wall is connected to the inner side wall of the housing, the impurity guiding wall is surrounded to form a tapered cavity, and the cross-sectional area of the tapered cavity is gradually reduced in a direction away from the annular air guiding passage.

7. The filtering device as claimed in claim 4, wherein a check valve is provided at a bottom of the filtering device, the check valve defining a direction in which air inside the filtering device flows to the outside.

8. The filtration apparatus as claimed in claim 1, further comprising a fine filter assembly, wherein the fine filter assembly comprises a plurality of conical separation cylinders and an air flow passage, the bottom end of the air flow passage is open to the top, the conical separation cylinders are arranged along the axial direction of the air flow passage and are arranged coaxially with the air flow passage, and a secondary air filtering passage is formed between the inner wall of the air flow passage and the side wall of the conical separation cylinder.

9. A filter device as claimed in claim 8, wherein the bottom end of the airflow passage is provided with an impurity receiving pan, one side of which is connected to an inner side wall of the airflow passage and the other side of which extends towards the axis of the airflow passage.

10. The filtering device as claimed in claim 8, wherein a filter screen is disposed at one end of the bottom of the airflow channel or at the top opening of the annular air guiding channel.

11. The filtering device as claimed in claim 1, wherein an end of the air inlet pipe communicating with the annular air guiding passage is tapered, and a cross-sectional area of the taper is gradually reduced in a direction approaching the annular air guiding passage.

12. The filter apparatus as claimed in claim 1, wherein the axial direction of the air inlet pipe is arranged along the tangential direction of the annular air guiding passage.

13. A cooling system of a wind generating set, comprising an air cooling pipeline and a driving device, wherein at least a part of the air cooling pipeline is arranged inside a cabin and a hub of the wind generating set, an air inlet and an air outlet of the air cooling pipeline are communicated with the outside, and the driving device is connected to the air cooling pipeline and is used for driving the air inside the air cooling pipeline to flow, and the cooling system of the wind generating set is characterized by comprising the filtering device according to any one of claims 1 to 12, and the filtering device is arranged at the air inlet of the air cooling pipeline.

14. The wind turbine generator system of claim 13, wherein the air cooling circuit includes a nacelle branch circuit and a hub branch circuit, the inlet openings of the nacelle branch circuit and the hub branch circuit each communicating with the outlet opening of the filtering device, the nacelle branch circuit being located inside the nacelle, and a portion of the hub branch circuit being located inside the hub.

15. A wind park according to claim 13 or 14, wherein the wind park comprises a wind park cooling system.

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