CN206267611U - A kind of anti-bird hits anemometer tower - Google Patents
A kind of anti-bird hits anemometer tower Download PDFInfo
- Publication number
- CN206267611U CN206267611U CN201621326681.1U CN201621326681U CN206267611U CN 206267611 U CN206267611 U CN 206267611U CN 201621326681 U CN201621326681 U CN 201621326681U CN 206267611 U CN206267611 U CN 206267611U
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- China
- Prior art keywords
- tower
- anemometer
- wind
- bowl
- inwall
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Abstract
The utility model is related to a kind of anti-bird to hit anemometer tower, including is vertically arranged at the cylindric tower on ground, and at least one height face of tower is crosswind plane, and crosswind plane is provided with least one anemometer;Anemometer includes support bar, and support bar is provided with least three survey wind bowls rotated around support bar, and the inwall and/or outer wall for surveying wind bowl are at least partly coated with reflecting coating.Reflecting coating is sprayed by the survey wind of anemometer bowl, order is surveyed wind bowl inwall and can form reflective plane, making the survey wind bowl of rotation be constituted in the presence of any light source such as sunshine, moonlight, starlight, fluorescence can send change light, the lamp source of passage of scintillation light, to constitute the outline lamp of anemometer tower, prevent flying bird etc. from colliding to anemometer, and then reach the purpose for preventing anemometer to be knocked.
Description
Technical field
The utility model is related to wind power generation field, more particularly to a kind of anti-bird to hit anemometer tower.
Background technology
In recent years, as the whole world is to the common concern of wind energy resources and developing rapidly for wind power industry, national governments,
Enterprise or Wind Power Generation business start investment and build anemometer tower, are the first-hand wind energy money of investment construction acquisition of wind power plant in future
Material.Anemometer tower is erected in wind power plant site, mostly sews with long stitches rack and panel construction and cylinder mode, using steel strand wires oblique pull reinforcing side
Formula, generally 10-150 meters of height.Airspeedometer, wind vane and temperature, air pressure etc. are installed at tower body different height and survey wind
Instrument.Round-the-clock site wind conditions can be observed incessantly, measurement data is recorded and stored on tower body
Data logger in.
Crosswind instrument on existing anemometer tower is higher due to residing height, and in order to measurement result more precisely need to be by anemometer
Exposed to be arranged in air, flying bird for easily being flown over etc. is clashed into, and easily damages precision anemometer higher.
Meanwhile, there is wind shadow effect caused by tower, different degrees of in existing anemometer tower structure.Wind shadow effect, be
Refer to because anemometer is arranged at tower leeward side, and tower can produce influence to the wind before flowing through anemometer.Due to wind shadow effect
The presence answered so that anemometer cannot accurately detect the parameters such as wind-force, wind direction.
In view of this, it is special to propose the utility model.
Utility model content
The purpose of this utility model is to provide a kind of anti-bird to hit anemometer tower, and anemometer tower is prevented by the mesh of bird collisions to reach
's;A further object is to provide a kind of wind resistance shadow anemometer tower, to reach the mesh for avoiding tower wind shadow from impacting wind-force detection
's.
To realize above-mentioned utility model purpose, adopt the following technical scheme that:
A kind of anti-bird hits anemometer tower, including is vertically arranged at the cylindric tower on ground, at least one height of tower
Face is crosswind plane, and crosswind plane is provided with least one anemometer;Anemometer includes support bar, and support bar is provided with least three
The individual survey wind bowl rotated around support bar, the inwall and/or outer wall for surveying wind bowl is at least partly coated with reflecting coating.
Further, two bowl structures that the survey wind bowl is disposed opposite to each other by opening are constituted, in two bowls of bottoms of assembling structure
The heart is connected, and two bowls of assembling structures are with respect to the symmetrical similar shape setting in junction, the end of connecting rod and two junctions of bowl assembling structure
Be connected, and the axis horizontal of bowl assembling structure and with connecting rod axis perpendicular set.
Further, reflecting coating and fluoresent coating, the reflecting coating spraying are coated with the inwall of the bowl structure
Close outer peripheral portion, the fluoresent coating in bowl structure inwall are sprayed at the close core of bowl structure inwall.
Further, the bowl structure include center set core and from core to opening at periphery
Part;Core is coated with fluoresent coating, and outer peripheral portion is coated with reflecting coating.
Further, the inwall of the outer peripheral portion of bowl structure is in gradually to bend inclined curved surface backward from outer circumferential center;
The inwall of the core of bowl structure is the projecting surface protruded to opening direction, and the projecting surface is in from the periphery of core
To center gradually to the inclined curved surface of front curve.
Further, to be provided with least one convex to bowl structure central axial direction for the inwall of the outer peripheral portion of bowl structure
The first lug boss for going out, described first states the inwall of lug boss in the smooth song gradually protruded to axis direction from outer circumferential center
Face;
Preferably, the inwall of outer peripheral portion is provided with multiple symmetrical or staggered with respect to bowl structure central axis
First lug boss;Reflecting coating or fluoresent coating are coated with first lug boss.
Further, the outer wall center of bowl structure is connected, and reflecting coating is coated with the outer wall of bowl structure.
Further, the outer wall of bowl structure is provided with least one to protruded away from bowl structure central axial direction
Two lug bosses, fluoresent coating is coated with the second protuberance;
Preferably, the outer wall of bowl structure is provided with multiple symmetrical or staggered with respect to bowl structure central axis
Second lug boss, reflecting coating is coated with second lug boss.
Further, horizontally disposed survey wind platform is provided with least one height in tower, is pacified on the survey wind platform
Equipped with least a set of anemometer, described survey wind platform, through rotatable phase chain connection, is surveyed on wind platform and also fixed with tower
The deep bead being radially vertically arranged, connecting line between the horizontal-extending axis and anemometer and tower axis of deep bead are installed
Perpendicular setting, makes deep bead drive survey wind platform to be rotated to anemometer around tower body under wind-force effect and is in wind direction with respect to tower
Perpendicular direction.
Further, anemometer tower includes the tower being vertically arranged on ground, and water is provided with least one height in tower
The flat mounting rod for setting, mounting rod being installed in tower around the rotation of tower axis, the first end of mounting rod be provided with anemometer,
Second end is provided with to pouring weight, and described mounting rod is provided with the deep bead being vertically arranged, and makes deep bead be driven under wind-force effect
Mounting rod rotates to anemometer around tower body and is in wind direction updrift side with respect to tower.
There is following beneficial effect compared with prior art in the utility model:
By spraying reflecting coating on the survey wind of anemometer bowl, order is surveyed wind bowl inwall and can form reflective plane, order rotation
Survey wind bowl in the presence of any light source such as sunshine, moonlight, starlight, fluorescence constitute can send change light, the lamp of passage of scintillation light
Source, to constitute the outline lamp of anemometer tower, prevents flying bird etc. from colliding to anemometer, and then having reached prevents anemometer to be knocked
Purpose.
Meanwhile, the utility model simple structure, effect is significant is suitably promoted the use of.
Brief description of the drawings
The structural representation of anemometer tower in Fig. 1 the utility model embodiments;
The structural representation of anemometer in Fig. 2 the utility model embodiments;
The section structure schematic diagram of wind bowl is surveyed in Fig. 3 the utility model embodiments;
The structural representation of anemometer tower in the different embodiments of Fig. 4 with Fig. 5 the utility model;
The survey wind platform top view of anemometer tower in Fig. 6 the utility model embodiments;
The survey wind stage+module sectional drawing of anemometer tower in Fig. 7 the utility model embodiments;
The mounting rod top view of anemometer tower in Fig. 8 the utility model embodiments;
The mounting rod of anemometer tower installs sectional drawing in Fig. 9 the utility model embodiments.
Main element explanation in figure:1-tower, 2-anemometer, 3-survey wind platform, 4-mounting rod, 7-upper flange,
8-lower flange, 9-outward flange, 10-inner flange, 11-card convex, 12-groove, 13-deep bead, 14-to pouring weight, 15-
Strut, 16-survey wind bowl, 17-connecting rod, 18-axle sleeve, 51-bowl structure, 52-reflecting coating, 53-fluoresent coating,
54-core, 55-outer peripheral portion, the 56-the first lug boss, the 57-the second protuberance.
Specific embodiment
The utility model is described in more detail with reference to embodiment.
Embodiment one
As shown in Figure 1 to Figure 3, a kind of anti-bird is described in the utility model embodiment and hits anemometer tower, including be vertically arranged
In the tower 1 on ground, at least one height face of tower 1 is crosswind plane, and crosswind plane is provided with least one anemometer
2;Anemometer 2 includes support bar, and support bar is provided with least three survey wind bowls 16 rotated around support bar 15, surveys the interior of wind bowl 16
Wall and/or outer wall are at least partly coated with reflecting coating 52.
By spraying reflecting coating on the survey wind of anemometer bowl, order is surveyed wind bowl inwall and can form reflective plane, order rotation
Survey wind bowl in the presence of any light source such as sunshine, moonlight, starlight, fluorescence constitute can send change light, the lamp of passage of scintillation light
Source, to constitute the outline lamp of anemometer tower, prevents flying bird etc. from colliding to anemometer, and then having reached prevents anemometer to be knocked
Purpose.
In the present embodiment, the anemometer 2 includes being installed on support bar 15 in tower 1, be set with support bar 15 around
The axle sleeve 18 of axis rotation, the periphery of axle sleeve 18 is connected with least three connecting rod 17 radially extend, symmetry arrangement, even
Wind bowl 16 is surveyed in the end connection of extension bar 17.
In the present embodiment, two bowl structures 51 that the survey wind bowl 16 is disposed opposite to each other by opening are constituted, two bowls of assembling structures
51 bottom centre is connected, and two bowls of assembling structures 51 are with respect to the symmetrical similar shape setting in junction, the end of connecting rod 17 and two bowls
The junction of assembling structure 51 is connected, and the axis horizontal of bowl assembling structure 51 and with the axis perpendicular of connecting rod 17 set.
In the present embodiment, reflecting coating 52 and fluoresent coating 53 are coated with the inwall of the bowl structure 51, it is described anti-
Light coating 52 is sprayed at the outer peripheral portion 55 near opening of the inwall of bowl structure 51, the fluoresent coating 53 and is sprayed at bowl-shape knot
The inwall of structure 51 by paracentral core 54.
Fluoresent coating is sprayed by spraying reflecting coating, core in the outer peripheral portion for surveying wind bowl so that survey in wind bowl
The heart can send fluorescence, and fluorescence exposed to and dissipated by reflection on the reflecting coating of outer peripheral portion, and the inwall that wind bowl is surveyed to make forms glimmering
Light reflects lamp source;Meanwhile, the reflecting coating for surveying wind bowl outer peripheral portion can still enter to exposing to sunlight, moonlight for surveying at wind bowl etc.
Row reflection so that survey wind bowl at moonless night or can still send out during the inferior weather of the cloudy weather without solar irradiation
Go out can darkening, to prevent the shock of flying bird.
In the present embodiment, the bowl structure 51 includes the core 54 that center sets and from core 54 to opening
Outer peripheral portion 55 at mouthful;Core 54 is coated with fluoresent coating 53, and outer peripheral portion 55 is coated with reflecting coating 52.
In the present embodiment, the inwall of the outer peripheral portion 55 of bowl structure 51 is in that gradually bending is inclined backward from outer circumferential center
Curved surface;The inwall of the core 54 of bowl structure 51 is the projecting surface protruded to opening direction, and the projecting surface is in
The outer circumferential center of center portion point 54 is gradually to the inclined curved surface of front curve.
In the present embodiment, the inwall of the outer peripheral portion of bowl structure 51 is provided with least one to the central shaft of bowl structure 51
First lug boss 56 of line direction protrusion, the described first inwall for stating lug boss 56 is in gradually to axis direction from outer circumferential center
The smooth surface of protrusion;Preferably, the inwall of outer peripheral portion 55 be provided with multiple relative central axis of bowl structure 51 it is symmetrical or
The first staggered lug boss 56;Reflecting coating 52 or fluoresent coating 53 are coated with first lug boss 56.
In the present embodiment, the outer wall center of bowl structure 51 is connected, and is coated with the outer wall of bowl structure 51 reflective
Coating 52.
In the present embodiment, the outer wall of bowl structure 51 is provided with least one to away from the central axial direction of bowl structure 51
Second lug boss 57 of protrusion, fluoresent coating 53 is coated with the second protuberance 57;Second outer wall for stating lug boss 57 is in
From outer circumferential center gradually to the smooth surface protruded away from axis direction;Preferably, the outer wall of bowl structure 51 is provided with many
Individual symmetrical with respect to the central axis of bowl structure 51 or the second staggered lug boss 57, sprays on second lug boss 57
Scribble reflecting coating 52.
Protuberance is set by the inwall of bowl structure, outer wall, forms uneven with the surface in bowl structure
Face, becomes apparent the reflected light of bowl assembling structure;Meanwhile, fluoresent coating or reflecting coating are sprayed in protuberance, further to add
It is strong to survey the flicker intensity of illumination of wind bowl, and then reduce the probability of bird strike.
Embodiment two
As shown in Fig. 4, Fig. 6 and Fig. 7, this implementation describes a kind of wind resistance shadow anemometer tower, including is vertically arranged on ground
Tower 1, horizontally disposed survey wind platform 3 is provided with least one height in tower 1, be provided with the survey wind platform 3
At least a set of anemometer 2, described survey wind platform 3, through rotatable phase chain connection, is surveyed on wind platform 3 and also fixed with tower 1
The deep bead 13 being radially vertically arranged is installed, between the horizontal-extending axis and anemometer 2 and the axis of tower 1 of deep bead 13
The perpendicular setting of connecting line, makes deep bead 13 drive survey wind platform 3 to be rotated to anemometer 2 with respect to tower around tower body under wind-force effect
Cylinder 1 is in the perpendicular direction of wind direction.
It is arranged on the survey wind platform for rotating with the wind by by anemometer so that the anemometer surveyed on wind platform is in all the time
The anemometer junction that is connected with tower axis is perpendicular with wind direction, to avoid tower effect when tower is detected to anemometer, improves
The accuracy of anemometer detection.
In the present embodiment, described survey wind platform 3 is horizontally disposed disc-shaped structure, surveys center and the tower of wind platform 3
Cylinder 1 is coaxially disposed, and two anemometers 2 that relative Central Symmetry is set are provided with the periphery for surveying wind platform 3.Survey in wind platform 3
Portion is provided through the perforation of tower 1, and outwardly supporting construction is provided with the respective heights of tower 1 of anemometer tower, surveys wind platform 3
It is hinged with supporting construction, wind platform 3 is surveyed in order can be rotated under wind-force effect around the axis of tower 1.
In the present embodiment, the wind platform 3 of surveying is provided with the relative twice deep bead for surveying the Central Symmetry setting of wind platform 3
13, described deep bead 13 is the laminated structure being vertically arranged, and deep bead 13 surveys the radial direction of wind platform 3, wind platform 3 of testing oneself along circle
The periphery of survey wind platform 3 is extended to the junction of tower 1, is connected between the horizontal-extending line of twice deep bead 13 and two anemometers 2
Wiring is perpendicular.Preferably, the anemometer 2 is arranged at the upper surface of survey wind platform 3, deep bead 13 and is arranged at survey wind platform 3
Lower surface, to reduce the influence that deep bead 13 detects wind direction and wind-force to anemometer 2, improve the accuracy of the detection of anemometer 2.
In the present embodiment, the described bottom of survey wind platform 3 is provided with upper flange 7, and the tower 1 of anemometer tower is provided with lower flange 8,
The upper flange 7 is provided with the downwardly projecting card convex 11 of a circle, and lower flange 8 is provided with the groove 12 that a circle sets up opening;
The clamping of the card convex 11 enters in groove 12, and the card convex 11 and draw-in groove 12 are coaxially disposed with tower 1, and order surveys wind platform 3 in card
Convex 11 and draw-in groove 12 cooperation under around the axis of tower 1 rotation.
In the present embodiment, the card convex 11 includes vertical extension and horizontal extension, and the vertical extension is from upper
Tubular structure that the bottom surface of flange 7 extends straight down and that tower 1 is coaxially disposed, the horizontal extension is and extends vertically
The cyclic structure that portion bottom is connected and tower 1 is coaxially disposed, the inner circumferential of circular horizontal extension and/or periphery protrusion are perpendicular
The respective side wall of straight extension is set, to constitute cross section as " being inverted T " or the card convex of " L " shape.
In the present embodiment, the draw-in groove 12 and the corresponding setting of card convex 11, and the top of draw-in groove 12 is provided with for the perpendicular of card convex 11
The opening that straight extension is passed;Preferably, touching position is provided with sealing strip between the opening and vertical extension, recessed to ensure
The relatively closed setting of hollow of groove, it is ensured that the lubricating oil in groove will not leak.
In the present embodiment, lubricating oil is full of between the draw-in groove 12 and card convex 11;And/or in bottom wall, the side wall of draw-in groove 12
At least one be provided with the ball that a row is intervally arranged, to reduce the frictional force in rotation platform rotary course, make anemometer
Measurement result it is more accurate.
In the present embodiment, the anemometer 2 includes vertical support bar 15, and the lower end of support bar 15 is connected with wind platform 3 is surveyed
Connect, upper end is provided with the A-frame rotated around support bar, A-frame is provided with three of the axially symmetric arrangement of relative support bar
Survey wind bowl 16.
In the present embodiment, survey on wind platform 3 and the anemometer 2 that two relative axisymmetricals of tower 1 are set is set, two anemometers
2 support bar 15 axisymmetrical of tower 1 relative with the junction of support platform 3 is set, plane residing for each support bar 15 with keep out the wind
The horizontal-extending axis of plate 13 distinguishes perpendicular setting.
Set by by the connected wiring of anemometer and the axis perpendicular of deep bead, survey wind platform is received wind-force in deep bead
Under effect all the time be in wind direction direction in the same direction, and cause anemometer all the time not by tower interference effect, realize elimination tower
Wind shadow effect, improve the accuracy in detection of anemometer tower.
In the present embodiment, the multiple survey of the tower 1 is respectively equipped with a survey wind platform 3 at wind height face, each surveys wind
The anemometer 2 that two relative axisymmetricals of tower 1 are set is respectively equipped with platform 3, and each is surveyed on wind platform 3 and is respectively equipped with two
The deep bead 13 that piece is radially extended, the horizontal-extending axis of each deep bead 13 surveys wind with two on corresponding survey wind platform 3
The perpendicular setting of the connecting line of instrument 2, the detection of wind-force and wind direction is carried out with the multiple different heights to anemometer tower respectively.
Embodiment three
A kind of wind resistance shadow anemometer tower is described as shown in Fig. 5, Fig. 8 and Fig. 9, in the present embodiment, including is vertically arranged at ground
Tower 1 on face, is provided with horizontally disposed mounting rod 4 at least one height in tower 1, mounting rod 4 can be around the axis of tower 1
What is rotated is installed in tower 1, and the first end of mounting rod 4 is provided with anemometer 2, the second end and is provided with to pouring weight 22, described installation
Bar 4 is provided with the deep bead 13 being vertically arranged.
It is arranged on the mounting rod for rotating with the wind by by anemometer so that the anemometer on mounting rod is all the time in relative
The wind direction updrift side of tower axis, to avoid tower effect when tower is detected to anemometer, improves the standard of anemometer detection
True property.
In the present embodiment, mounting rod 4 is provided with the outward flange 9 for being arranged in tower 1, and the outward flange 9 sets near the second end
Put, tower 1 is provided with inner flange 10, the outward flange 9 is engaged inside and outside grafting suit with inner flange 10, mounting rod is supplied to be formed
4 hinges rotated around the axis of tower 1.
In the present embodiment, described inner flange 10 is horizontally installed to the periphery of tower 1, and the lateral wall of inner flange 10 is provided with outwards
One circle groove 12 of sidewall opening;The inwall of outward flange 9 is provided with the card that grafting is engaged with groove 12 extended to center protrusion
Convex 11, make in the insertion groove 12 of card convex 11, inner flange 10 and outward flange 9 is formed the hinge arrangement that can be rotated around the axis of tower 1;
Preferably, the downside difference of the upper side of the upper side of inner flange 10 and outward flange 9, the downside of inner flange 10 and outer method 9
In same level.
In the present embodiment, the card convex 11 includes vertical extension and horizontal extension, and the horizontal extension is outside
The cyclic structure that the inboard, upright of flange 9 extends to the center position and axis perpendicular of tower 1 is set, the vertical extension
Be tubular structure be connected with horizontal extension inner circumferential and that tower 1 is coaxially disposed, the upside of the vertical extension of tubular and/
Or the respective side wall of downside protrusion horizontal extension is set, to constitute cross section as " T being rotated by 90 ° " or the card convex of " L " shape.
In the present embodiment, the mounting rod 4 is provided with least two anemometers 2, the first end of 2 self installation bar of each anemometer 4
It is intervally arranged setting to the direction of outward flange 9, deep bead 13 is respectively equipped between adjacent anemometer 2.
By setting spaced multiple anemometers on mounting rod so that multiple anemometers to sustained height at
Wind-force and wind direction are checked, to improve inspection precision.
In the present embodiment, the deep bead 13 is vertically arranged, and each deep bead 13 is in same flat with the axis of tower 1 respectively
Face, the height of the height less than anemometer 2 of deep bead 13.Preferably, deep bead 13 is located at located at the bottom of mounting rod 4, anemometer 2
The top of mounting rod 4, to eliminate influence of the deep bead 13 to anemometer 2, further improves the accuracy of detection of anemometer 2.
Preferably, can also in the present embodiment, adjacent deep bead 13 is respectively staggeredly located at the upside of mounting rod 4 with
Side, to improve the stability of mounting rod 4.
In the present embodiment, the anemometer 2 includes vertical support bar 15, and the lower end of support bar 15 is connected with wind platform 3 is surveyed
Connect, upper end is provided with the A-frame rotated around support bar 15, A-frame is provided with the axially symmetric arrangement of relative support bar 15
Three are surveyed wind bowl 16.
In the present embodiment, the multiple survey of the tower 1 is respectively equipped with a peace around the rotation of the axis of tower 1 at wind height face
Dress bar 4, is respectively equipped with each mounting rod 4 and at least a piece of edge is respectively equipped with least one anemometer 2, and each mounting rod 4
The deep bead 13 that the axis direction of mounting rod 4 extends.
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 not spirit and scope of the present utility model are defined, new this practicality is not departed from
On the premise of type design philosophy, various change that professional and technical personnel in the art make to the technical solution of the utility model and
Improve, belong to protection domain of the present utility model.
Claims (10)
1. a kind of anti-bird hits anemometer tower, including is vertically arranged at the cylindric tower on ground, at least one height face of tower
It is crosswind plane, crosswind plane is provided with least one anemometer;It is characterized in that:Anemometer includes support bar, on support bar
At least three survey wind bowls rotated around support bar are provided with, the inwall and/or outer wall for surveying wind bowl are at least partly coated with reflecting coating.
2. a kind of anti-bird according to claim 1 hits anemometer tower, it is characterised in that:The survey wind bowl is disposed opposite to each other by opening
Two bowl structures constitute, the bottom centre of two bowls of assembling structures is connected, and two bowls of assembling structures set with respect to the symmetrical similar shape in junction
Put, the end of connecting rod is connected with the junction of two bowl assembling structures, and the axis horizontal of bowl assembling structure and and pitman shaft
The perpendicular setting of line.
3. a kind of anti-bird according to claim 2 hits anemometer tower, it is characterised in that:Coated on the inwall of the bowl structure
There are reflecting coating and fluoresent coating, the reflecting coating is sprayed at the close outer peripheral portion of bowl structure inwall, the fluorescence and applies
Layer is sprayed at the close core of bowl structure inwall.
4. a kind of anti-bird according to claim 3 hits anemometer tower, it is characterised in that:The bowl structure sets including center
The core put and from core to opening at outer peripheral portion;Core is coated with fluoresent coating, outer peripheral portion spray
Scribble reflecting coating.
5. a kind of anti-bird according to claim 4 hits anemometer tower, it is characterised in that:The inwall of the outer peripheral portion of bowl structure
Inclined curved surface is gradually bent backward in from outer circumferential center;The inwall of the core of bowl structure is to be protruded to opening direction
Projecting surface, the projecting surface be in from the outer circumferential center of core gradually to the inclined curved surface of front curve.
6. a kind of anti-bird according to claim 5 hits anemometer tower, it is characterised in that:The inwall of the outer peripheral portion of bowl structure
At least one the first lug boss protruded to bowl structure central axial direction is provided with, the inwall of first lug boss is in certainly
The smooth surface that outer circumferential center is gradually protruded to axis direction;
Preferably, to be provided with multiple relative bowl structure central axis symmetrical or staggered first for the inwall of outer peripheral portion
Lug boss;Reflecting coating or fluoresent coating are coated with first lug boss.
7. a kind of anti-bird according to claim 2 hits anemometer tower, it is characterised in that:The outer wall center of bowl structure is connected
Connect, reflecting coating is coated with the outer wall of bowl structure.
8. a kind of anti-bird according to claim 7 hits anemometer tower, it is characterised in that:The outer wall of bowl structure is provided with least
One, to the second lug boss protruded away from bowl structure central axial direction, fluoresent coating is coated with the second protuberance;Bowl
The outer wall of shape structure is provided with that multiple relative bowl structure central axis are symmetrical or the second staggered lug boss, and described the
Reflecting coating is coated with two lug bosses.
9. anemometer tower is hit according to any described a kind of anti-bird of claim 1 to 8, it is characterised in that:In tower at least one
Horizontally disposed survey wind platform is provided with height, at least a set of anemometer is installed on the survey wind platform, described survey wind is put down
Platform, through rotatable phase chain connection, is surveyed on wind platform and is also installed with the deep bead being radially vertically arranged with tower, is kept off
The perpendicular setting of connecting line between the horizontal-extending axis and anemometer and tower axis of aerofoil, make deep bead wind-force effect under
Drive survey wind platform to be rotated to anemometer around tower body and be in the perpendicular direction of wind direction with respect to tower.
10. anemometer tower is hit according to any described a kind of anti-bird of claim 1 to 8, it is characterised in that:Anemometer tower includes setting vertically
The tower being placed on ground, is provided with horizontally disposed mounting rod at least one height in tower, mounting rod can be around tower axle
What line rotated is installed in tower, and the first end of mounting rod is provided with anemometer, the second end and is provided with to pouring weight, on described mounting rod
The deep bead being vertically arranged is provided with, makes deep bead drive mounting rod to be rotated to anemometer with respect to tower around tower body under wind-force effect
In wind direction updrift side.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621326681.1U CN206267611U (en) | 2016-12-05 | 2016-12-05 | A kind of anti-bird hits anemometer tower |
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Application Number | Priority Date | Filing Date | Title |
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CN201621326681.1U CN206267611U (en) | 2016-12-05 | 2016-12-05 | A kind of anti-bird hits anemometer tower |
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CN206267611U true CN206267611U (en) | 2017-06-20 |
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CN201621326681.1U Expired - Fee Related CN206267611U (en) | 2016-12-05 | 2016-12-05 | A kind of anti-bird hits anemometer tower |
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Country | Link |
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2016
- 2016-12-05 CN CN201621326681.1U patent/CN206267611U/en not_active Expired - Fee Related
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170620 Termination date: 20181205 |
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CF01 | Termination of patent right due to non-payment of annual fee |