CN205844924U - The dehumidification system of Variable flow control cabinet in a kind of wind-driven generator - Google Patents

Abstract

The utility model discloses the dehumidification system of Variable flow control cabinet in a kind of wind-driven generator, including humidity detection unit, controller and dehydrating unit, humidity detection unit, be connected with controller, the moisture signal in detection Variable flow control cabinet is passed to controller；Controller, it is connected with dehydrating unit, judge the moisture signal that humidity detection unit transmits, control dehydrating unit to open/close, described dehumidification system also includes standby dehydrating unit, described standby dehydrating unit is connected with controller, when controller detects dehydrating unit operation irregularity, then starts standby dehydrating unit.This utility model solves can not be to the problem dehumidified in time in Variable flow control cabinet in wind-driven generator, the humidity of Variable flow control cabinet in wind-driven generator can be monitored by dehumidification system described in this utility model in real time, and dehumidify in Variable flow control cabinet in time, it is in safe humidity range in described dehumidification system Variable flow control cabinet, improves the safety and stability of wind-driven generator.

Description

The dehumidification system of Variable flow control cabinet in a kind of wind-driven generator

Technical field

This utility model relates to wind power generation field, the dehumidifying system of Variable flow control cabinet in a kind of wind-driven generator System.

Background technology

In recent years, along with the fast development of society's industry, the mankind are increasing to the demand of the energy, due to traditional energy Source, such as coal, oil, natural gas are non-renewable energy resources, and what therefore energy problem became is growing tension；Find new energy Source has very important effect to human development.

It is known that wind-power electricity generation is the kinetic energy kept watch transfers electric energy to.Wind energy is as the regenerative resource of a kind of cleaning, more Get over and paid attention to by countries in the world.And found by long-term practice: wind-driven generator mainly relies on wind-force to realize Generating, therefore, wind-driven generator is it is generally required to set up at wind energy resources spacious more local than more rich, generally, this The place that wind energy is more spacious, its environmental condition is relatively more severe, and the extreme sky such as hurricane or torrential rain the most often occurs The generation of gas；And above-mentioned extreme weather once occurs, it will the electrical equipment in wind-driven generator is caused badly damaged.

Especially, it is arranged at the blower fan Variable flow control cabinet bottom wind-driven generator tower, wherein said Variable flow control cabinet In mainly realize controlling hinge, to the control of wind-driven generator and to run safety most important, due in Variable flow control cabinet Being integrated with substantial amounts of electrical equipment, therefore, described Variable flow control cabinet is affected by environment relatively big, and during rainy season, part fan is in ground Gesture lower region, rainwater accumulates, and ambient humidity increases, and causes Variable flow control cabinet interior humidity to exceed standard.

First, converter cabinet interior humidity exceeds standard and electric elements inside can be caused to be damaged or disturb, and quotes fault Shut down.Maintainer is from wind field to the position of fault, and shutting down dehumidifying probably needs the long period, and during this, shape shut down by blower fan State, loss electricity is the biggest.Secondly, converter cabinet interior humidity exceeds standard, and fault do not quoted by blower fan, and maintainer can not be sent out in time Existing, when humidity reaches to a certain degree, cause converter module to damage, expand the scope of fault, it will more have a strong impact on Generated energy and blower fan availability.Again, owing to this converter module volume is relatively big, heavier-weight, working place is less to peace There is certain risk in dress personal security.Meanwhile, converter module is relatively costly, increases considerably maintenance cost after damage.

In view of this, special proposition this utility model.

Utility model content

The technical problems to be solved in the utility model is to overcome the deficiencies in the prior art, it is provided that in a kind of wind-driven generator The dehumidification system of Variable flow control cabinet, mainly monitors in real time to the humidity of Variable flow control cabinet in wind-driven generator, and automatically Dehumidifying, it is ensured that the safety and stability that wind-driven generator runs, improves the work efficiency of wind-driven generator.

In order to realize this purpose, this utility model adopts the following technical scheme that Variable flow control cabinet in a kind of wind-driven generator Dehumidification system, including humidity detection unit, controller and dehydrating unit,

Humidity detection unit, is connected with controller, and the moisture signal in detection Variable flow control cabinet is passed to controller；

Controller, is connected with dehydrating unit, it is judged that the moisture signal of humidity detection unit transmission, controls dehydrating unit and opens Open/close.

Further, described dehydrating unit includes dehydrating unit body, intake stack and wind pipe；

Wherein, described dehydrating unit body is arranged at outside Variable flow control cabinet, and by intake stack and wind pipe with Variable flow control cabinet connects, and forms dehumidifying closed circuit.

Further, described Variable flow control cabinet is additionally provided with at least one through hole, the intake stack of described dehydrating unit and Wind pipe is connected with Variable flow control cabinet by same through hole.

Further, intake stack and the wind pipe of described dehydrating unit passes through different through holes and Variable flow control cabinet respectively Connection.

Further, described intake stack and wind pipe are provided with sealing structure with through hole connecting portion, and described sealing is tied Structure utilizes sealed material to seal intake stack and wind pipe with through hole connecting portion.

Further, described humidity detection unit includes humidity sensor and D/A converter module；

Wherein, described humidity sensor is connected with D/A converter module, and described D/A converter module is with controller even Connect.

Further, arranging at least one humidity sensor in described Variable flow control cabinet, described humidity sensor is equal It is distributed in Variable flow control cabinet.

Further, described controller also includes storage element, judging unit and control unit, described storage element and Judging unit is connected with control unit respectively；

Wherein, storage element: the letter of the preset value corresponding to humidity in storage humidity detector unit detection Variable flow control cabinet Breath；

Judging unit: receive humidity detection unit and send the humidity information in detected Variable flow control cabinet, and judge whether Exceed preset value；

Control unit: control the unlatching/closed mode of dehydrating unit.

Further, in described dehumidification system, humidity detection unit reads the humidity information in Variable flow control cabinet in real time；

Wherein, when the humidity in humidity detection unit detection Variable flow control cabinet is not less than preset value, then controller cuts out Dehydrating unit, or keep dehydrating unit be closed mode.

Further, described dehumidification system also includes standby dehydrating unit, and described standby dehydrating unit is with controller even Connect, when controller detects dehydrating unit operation irregularity, then start standby dehydrating unit.

After using technique scheme, this utility model compared with prior art has the advantages that

1, in wind-driven generator described in the utility model the dehumidification system of Variable flow control cabinet solve can not be to wind-force The problem carrying out in time in Variable flow control cabinet in electromotor dehumidifying, wind-force can be sent out by the dehumidification system described in this utility model In motor, the humidity of Variable flow control cabinet is monitored in real time, and dehumidifies in Variable flow control cabinet in time, described dehumidifying system It is in safe humidity range in system Variable flow control cabinet, improves the safety and stability of wind-driven generator.

2, in wind-driven generator described in the utility model, the dehumidification system of Variable flow control cabinet improves wind power generating set Interior dehumidification system is intelligent, reduces working strength and the maintenance cost of maintainer.

3, in wind-driven generator described in the utility model, the dehumidification system of Variable flow control cabinet can be by dehydrating unit Carry out dehumidifying process, in the case of ensureing that wind-driven generator runs safety, further under running status of wind generator simultaneously The work efficiency that improve wind-driven generator.

Accompanying drawing explanation

The structure chart of dehumidification system in Fig. 1, this utility model embodiment；

The structure chart of dehumidification system in another embodiment of Fig. 2, this utility model；

Fig. 3, the structure chart of this utility model embodiment middle controller.

Detailed description of the invention

Understandable for enabling above-mentioned purpose of the present utility model, feature and advantage to become apparent from, below in conjunction with the accompanying drawings and tool This utility model is described in further detail by body embodiment.

Embodiment one

As shown in figures 1 and 3, the dehumidification system of Variable flow control cabinet in a kind of wind-driven generator of this utility model, including wet Degree detector unit, controller and dehydrating unit,

Humidity detection unit, is connected with controller, and the moisture signal in detection Variable flow control cabinet is passed to controller；

Controller, is connected with dehydrating unit, it is judged that the moisture signal of humidity detection unit transmission, controls dehydrating unit and opens Open/close.

Further, described dehydrating unit includes dehydrating unit body, intake stack and wind pipe；

Wherein, described dehydrating unit body is arranged at outside Variable flow control cabinet, and by intake stack and wind pipe with Variable flow control cabinet connects, and forms dehumidifying closed circuit.

Further, described Variable flow control cabinet is additionally provided with at least one through hole, the intake stack of described dehydrating unit and Wind pipe is connected with Variable flow control cabinet by same through hole.

Further, intake stack and the wind pipe of described dehydrating unit passes through different through holes and Variable flow control cabinet respectively Connection.

Further, described intake stack and wind pipe are provided with sealing structure with through hole connecting portion, and described sealing is tied Structure utilizes sealed material to seal intake stack and wind pipe with through hole connecting portion.

Further, described humidity detection unit includes humidity sensor and D/A converter module；

Wherein, described humidity sensor is connected with D/A converter module, and described D/A converter module is with controller even Connect.

Further, arranging at least one humidity sensor in described Variable flow control cabinet, described humidity sensor is equal It is distributed in Variable flow control cabinet.

Further, described controller also includes storage element, judging unit and control unit, described storage element and Judging unit is connected with control unit respectively:

Wherein, storage element: the letter of the preset value corresponding to humidity in storage humidity detector unit detection Variable flow control cabinet Breath；

Judging unit: receive humidity detection unit and send the humidity information in detected Variable flow control cabinet, and judge whether Exceed preset value；

Control unit: control the unlatching/closed mode of dehydrating unit.

Further, in described dehumidification system, humidity detection unit reads the humidity information in Variable flow control cabinet in real time；

Wherein, when the humidity in humidity detection unit detection Variable flow control cabinet is not less than preset value, then controller cuts out Dehydrating unit, or keep dehydrating unit be closed mode.

In sum, in the wind-driven generator described in the present embodiment, the dehumidification system of Variable flow control cabinet has the advantage that

1, in the wind-driven generator described in the present embodiment, the dehumidification system of Variable flow control cabinet solves and can not send out wind-force The problem carrying out in time in Variable flow control cabinet in motor dehumidifying, the dehumidification system described in the present embodiment can be to wind-driven generator The humidity of interior Variable flow control cabinet is monitored in real time, and dehumidifies in Variable flow control cabinet in time, and described dehumidification system becomes It is in safe humidity range in flow control cabinet, improves the safety and stability of wind-driven generator.

2, in the wind-driven generator described in the present embodiment, the dehumidification system of Variable flow control cabinet improves in wind power generating set Dehumidification system is intelligent, reduces working strength and the maintenance cost of maintainer.

3, in the wind-driven generator described in the present embodiment, the dehumidification system of Variable flow control cabinet can be at wind by dehydrating unit Carry out dehumidifying process, in the case of ensureing that wind-driven generator runs safety, further under power generator running status simultaneously Improve the work efficiency of wind-driven generator.

Embodiment two

As in figure 2 it is shown, described dehumidification system also includes standby dehydrating unit, described standby dehydrating unit is with controller even Connect, when controller detects dehydrating unit operation irregularity, then start standby dehydrating unit.

Or, when the humidity in humidity detection unit detection Variable flow control cabinet exceedes preset limit value, then controller opens Dynamic dehydrating unit and standby dehydrating unit.

Further, described standby dehydrating unit is arranged at outside Variable flow control cabinet, and, described standby dehydrating unit Connected with Variable flow control cabinet with standby wind pipe by standby intake stack, and form standby dehumidifying closed circuit.

Further, described Variable flow control cabinet is additionally provided with at least one standby through hole, described standby dehydrating unit standby Connected with Variable flow control cabinet by same standby through hole with standby wind pipe with intake stack.

Further, the standby intake stack of described dehydrating unit and standby wind pipe also can be respectively by the most standby Through hole connects with Variable flow control cabinet.

Further, described standby intake stack and standby wind pipe are provided with sealing knot with standby through hole connecting portion Structure, described sealing structure utilizes sealed material to seal standby intake stack and standby wind pipe with through hole connecting portion.

Dehumidification system described in the present embodiment ensure that the stability that dehumidification system runs.

Embodiment in above-described embodiment can be further combined or replace, and embodiment is only new to this practicality The preferred embodiment of type is described, and is not defined spirit and scope of the present utility model, new without departing from this practicality On the premise of type design philosophy, the various changes that in this area, the technical solution of the utility model is made by professional and technical personnel and Improve, belong to protection domain of the present utility model.

Claims (7)

1. the dehumidification system of Variable flow control cabinet in a wind-driven generator, it is characterised in that: include humidity detection unit, controller And dehydrating unit,

Humidity detection unit, is connected with controller, and the moisture signal in detection Variable flow control cabinet is passed to controller；

Controller, is connected with dehydrating unit, it is judged that the moisture signal of humidity detection unit transmission, controls dehydrating unit and opens/close Close；

Described dehumidification system also includes that standby dehydrating unit, described standby dehydrating unit are connected with controller, when controller is examined When measuring dehydrating unit operation irregularity, then start standby dehydrating unit.

The dehumidification system of Variable flow control cabinet in a kind of wind-driven generator the most according to claim 1, it is characterised in that: described Dehydrating unit includes dehydrating unit body, intake stack and wind pipe；

Wherein, described dehydrating unit body is arranged at outside Variable flow control cabinet, and by intake stack and wind pipe and unsteady flow Switch board connects, and forms dehumidifying closed circuit.

The dehumidification system of Variable flow control cabinet in a kind of wind-driven generator the most according to claim 2, it is characterised in that: described Variable flow control cabinet be additionally provided with at least one through hole, the intake stack of described dehydrating unit and wind pipe by same through hole with Variable flow control cabinet connects.

The dehumidification system of Variable flow control cabinet in a kind of wind-driven generator the most according to claim 2, it is characterised in that: described The intake stack of dehydrating unit is connected with Variable flow control cabinet by different through holes respectively with wind pipe.

The dehumidification system of Variable flow control cabinet in a kind of wind-driven generator the most according to claim 1, it is characterised in that: described Humidity detection unit include humidity sensor and D/A converter module；

Wherein, described humidity sensor is connected with D/A converter module, and described D/A converter module is connected with controller.

The dehumidification system of Variable flow control cabinet in a kind of wind-driven generator the most according to claim 5, it is characterised in that: described Variable flow control cabinet at least one humidity sensor is set, described humidity sensor is distributed in Variable flow control cabinet.

The dehumidification system of Variable flow control cabinet in a kind of wind-driven generator the most according to claim 1, it is characterised in that: described Controller includes storage element, judging unit and control unit, described storage element and judging unit respectively with control unit Connect；

Wherein, storage element: the preset value information corresponding to humidity in storage humidity detector unit detection Variable flow control cabinet；

Judging unit: receive the humidity information in humidity detection unit detected Variable flow control cabinet, and judge whether to exceed default Value；

Control unit: control the unlatching/closed mode of dehydrating unit.