CN208981882U - A kind of inclination alarm wind power plant - Google Patents
A kind of inclination alarm wind power plant Download PDFInfo
- Publication number
- CN208981882U CN208981882U CN201821608391.5U CN201821608391U CN208981882U CN 208981882 U CN208981882 U CN 208981882U CN 201821608391 U CN201821608391 U CN 201821608391U CN 208981882 U CN208981882 U CN 208981882U
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- CN
- China
- Prior art keywords
- tower bar
- wind power
- inclinometer
- power plant
- fixing sleeve
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- Arrangements For Transmission Of Measured Signals (AREA)
Abstract
The utility model discloses a kind of inclination alarm wind power plants, including tower bar, the top of the tower bar is rotatably connected to cabin, and the bottom end of tower bar is fixedly connected with pedestal, the lower end in the outside of the tower bar is provided with pyller, and the outside of tower bar is provided with warning lamp close to the upper end of pyller, the inner sidewall of the tower bar is fixedly connected with inclinometer, one end of the inclinometer is connected with data processor, and one end of the data processor is connected with control cabinet, and one end of the cabin is provided with blade.The utility model passes through the gradient of obliquity sensor module monitors tower bar, and the result of monitoring is transferred to control cabinet, and module real-time Transmission gives external subscriber terminal equipment by wireless communication, so as to observe the gradient of tower bar constantly, when the gradient of tower bar is more than setting value, warning lamp sounds an alarm, to further user be reminded to use necessary remedial measure, improves the safety of wind power plant.
Description
Technical field
The utility model relates to field of wind power equipment, specifically a kind of inclination alarm wind power plant.
Background technique
Wind resource be it is inexhaustible inexhaustible, can be reduced environmental pollution using wind-power electricity generation, save coal, stone
The conventional energy resources such as oil, wind generating technology is mature, and the advantage of lower cost in renewable energy has vast potential for future development,
Therefore, wind-power electricity generation is greatly developed in recent years.
The tower bar of wind power plant supports the cabin and blade on top, and therefore, safety needs to obtain reliably
Ensure, still, wind power plant is distributed in air port, the biggish position of the wind speed such as mountain top, seashore, and have much be mounted on it is remote
Area is easy to be influenced by nature, manpower and broken ring, but present tower bar does not have effective tilt detection means, substantially
By manually going on patrol, the gradient of tower bar is observed, it is not only time-consuming and laborious, but also often monitor not in time, safety accident is caused, because
This needs the state of the method real time monitoring tower bar using auxiliary, gives warning in advance for the inclination realization being likely to occur.Therefore, originally
Field technical staff provides a kind of inclination alarm wind power plant, to solve the problems mentioned in the above background technology.
Summary of the invention
The purpose of this utility model is to provide a kind of inclination alarm wind power plants, to solve in above-mentioned background technique
The present tower bar proposed does not have effective tilt detection means, basically by artificial patrol, observes the gradient of tower bar, no
It is only time-consuming and laborious, and the problem of often monitor not in time, cause safety accident.
To achieve the above object, the utility model provides the following technical solutions:
A kind of inclination alarm wind power plant, including tower bar, the top of the tower bar are rotatably connected to cabin, and tower bar
Bottom end be fixedly connected with pedestal, the lower end in the outside of the tower bar is provided with pyller, and the outside of tower bar is close to the upper of pyller
End is provided with warning lamp, and the inner sidewall of the tower bar is fixedly connected with inclinometer, and one end of the inclinometer is connected at data
Device is managed, one end of the data processor is connected with control cabinet, and one end of the cabin is provided with blade.
As a further solution of the present invention: the inclinometer includes inclinometer pipe, the top insertion of the inclinometer pipe
It is provided with obliquity sensor module, and the outside of inclinometer pipe is provided with the first fixing sleeve close to the lower end of obliquity sensor module,
The outside of the inclinometer pipe is provided with horizontal bubble close to the lower end of the first fixing sleeve, and the outside of inclinometer pipe is close to horizontal bubble
Lower end be provided with the second fixing sleeve.
The structure and specification of first fixing sleeve and the second fixing sleeve are equal as a further solution of the present invention,
It is identical, and the first fixing sleeve includes tube coupling, one end of the tube coupling is fixedly connected with fixed square tube, and is provided on front side of tube coupling
First hand-tighten bolts, the top of the fixed square tube is provided with the second hand-tighten bolts, and one end insertion of fixed square tube is provided with
Sliding shoe.
The tube coupling and inclinometer pipe connect by the way that the first hand-tighten bolts are fixed as a further solution of the present invention,
It connects, the sliding shoe is fixedly connected with fixed square tube by the second hand-tighten bolts, and the inner wall of the sliding shoe and tower bar passes through outer
The bolt in portion is fixedly connected.
The control cabinet includes control box body as a further solution of the present invention, the control box body
Be internally provided with circuit board, the front surface of the circuit board is provided with wireless communication module, and the front surface of circuit board is close
The side of wireless communication module is provided with one-chip computer module.
The obliquity sensor module passes through cable and warning lamp, number as a further solution of the present invention,
It is connected according to processor with control cabinet.
Compared with prior art, the utility model has the beneficial effects that
1, by the gradient of obliquity sensor module monitors tower bar, and the result of monitoring is transferred to control cabinet, and lead to
It crosses wireless communication module real-time Transmission and works as tower to external subscriber terminal equipment so as to observe the gradient of tower bar constantly
When the gradient of bar is more than setting value, warning lamp is sounded an alarm, thus further user is reminded to use necessary remedial measure,
Improve the safety of wind power plant.
2, inclinometer pipe is made to be fixed on tower bar together with obliquity sensor module by the first fixing sleeve and the second fixing sleeve
Inner sidewall, since the diameter of tower bar lower part is big, the diameter on top is small, adjusts the cunning of the first fixing sleeve and the second fixing sleeve respectively
Motion block is different in the distance of the interior Slideslip of fixed square tube, inclinometer pipe can be made to be vertically fixed on the inner wall of tower bar, to adapt to
Different tower bars improves the practicability of inclinometer.
3, by observing the position of horizontal bubble, can accurately judge whether inclinometer pipe is vertical, to improve inclinometer
Measurement accuracy, avoid obliquity sensor module installation inaccuracy, cause monitoring result deviation occur, improve inclinometer
Accuracy.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of inclination alarm wind power plant;
Fig. 2 is a kind of cross-sectional view for tilting tower bar in alarm wind power plant;
Fig. 3 is a kind of structural schematic diagram for tilting inclinometer in alarm wind power plant;
Fig. 4 is a kind of structural schematic diagram for tilting the first fixing sleeve in alarm wind power plant;
Fig. 5 is a kind of structural schematic diagram for tilting control cabinet in alarm wind power plant.
In figure: 1, tower bar;2, cabin;3, blade;4, warning lamp;5, pyller;6, inclinometer;61, inclinometer pipe;62, horizontal
Bubble;63, the first fixing sleeve;631, tube coupling;632, the first hand-tighten bolts;633, the second hand-tighten bolts;634, fixed square tube;
635, sliding shoe;64, obliquity sensor module;65, the second fixing sleeve;7, data processor;8, control cabinet;81, control cabinet sheet
Body;82, wireless communication module;83, circuit board;84, one-chip computer module;9, pedestal.
Specific embodiment
Please refer to Fig. 1~5, in the utility model embodiment, a kind of inclination is alarmed wind power plant, including tower bar 1, tower
The top of bar 1 is rotatably connected to cabin 2, and the bottom end of tower bar 1 is fixedly connected with pedestal 9, and the lower end in the outside of tower bar 1 is provided with tower
Door 5, the outside of tower bar 1 is provided with warning lamp 4 close to the upper end of pyller 5, and the inner sidewall of tower bar 1 is fixedly connected with inclinometer 6, surveys
One end of oblique instrument 6 is connected with data processor 7, and one end of data processor 7 is connected with control cabinet 8, and one end of cabin 2 is provided with
Blade 3.
In order to measure the gradient of tower bar 1, inclinometer 6 includes inclinometer pipe 61, and the top insertion of inclinometer pipe 61, which is provided with, inclines
The outside of angle transducer module 64, inclinometer pipe 61 is provided with the first fixing sleeve 63 close to the lower end of obliquity sensor module 64, surveys
The outside of inclined tube 61 is provided with horizontal bubble 62 close to the lower end of the first fixing sleeve 63, and the outside of inclinometer pipe 61 is close to horizontal bubble
62 lower end is provided with the second fixing sleeve 65.
In order to make inclinometer pipe 61 be fixed together with tower bar 1, the structure and rule of the first fixing sleeve 63 and the second fixing sleeve 65
Lattice are all the same, and the first fixing sleeve 63 includes tube coupling 631, and one end of tube coupling 631 is fixedly connected with fixed square tube 634, tube coupling 631
Front side is provided with the first hand-tighten bolts 632, and the top of fixed square tube 634 is provided with the second hand-tighten bolts 633, fixed square tube 634
One end insertion be provided with sliding shoe 635.
Connect to adjust the verticality of inclinometer pipe 61, tube coupling 631 and inclinometer pipe 61 by the way that the first hand-tighten bolts 632 are fixed
It connects, sliding shoe 635 is fixedly connected with fixed square tube 634 by the second hand-tighten bolts 633, and the inner wall of sliding shoe 635 and tower bar 1 is logical
External bolt is crossed to be fixedly connected.
In order to carry out remote transmission data, control cabinet 8 includes control box body 81, and control box body 81 is internally provided with
Circuit board 83, the front surface of circuit board 83 are provided with wireless communication module 82, and the front surface of circuit board 83 is close to radio communication mold
The side of block 82 is provided with one-chip computer module 84.
It is detected to can receive warning lamp 4, data processor 7 and control cabinet 8 and handle obliquity sensor module 64
Signal, obliquity sensor module 64 connect by cable with warning lamp 4, data processor 7 and control cabinet 8, and inclination angle senses
The model SCA60C type of device module 64, the model STC89C52 type of one-chip computer module 84, the model of wireless communication module 82
For NRF24L01 type.
Working principle of the utility model is: blade 3 rotates under the action of the forces of the wind, kinetic energy is generated, then turns power
Electric energy is turned to, is generated electricity, blade 3 may make 1 run-off the straight of tower bar, pass through obliquity sensor under prolonged rotation
Module 64 monitors the gradient of tower bar 1, and the result of monitoring is transferred to data processor 7, and data processor 7 turns electric signal
Digital signal is turned to, and is transferred to one-chip computer module 84, one-chip computer module 84 issues instruction, and module 82 is number by wireless communication
External subscriber terminal equipment is transferred to when factually, so as to observe the gradient of tower bar 1 constantly, when the gradient of tower bar 1
When more than setting value, one-chip computer module 84 issues instruction again, and warning lamp 4 sounds an alarm, to further user be reminded to adopt
With necessary remedial measure, when installing inclinometer, by the first fixing sleeve 63 and the second fixing sleeve 65 make inclinometer pipe 61 together with
Obliquity sensor module 64 is fixed on the inner sidewall of tower bar 1 together, and since the diameter of 1 lower part of tower bar is big, the diameter on top is small, point
It is different in the distance of the interior Slideslip of fixed square tube 634 with the sliding shoe 635 of the second fixing sleeve 65 that the first fixing sleeve 63 is not adjusted,
The second hand-tighten bolts 633 are rotated clockwise again, so that sliding shoe 635 is fixed together with fixed square tube 634, can be made inclinometer pipe 61
Be vertically fixed on the inner wall of tower bar 1, to adapt to different tower bars 1, adjust sliding shoe 635 apart from when, pass through observation and see
The position of horizontal bubble 62 is examined, whether vertical can accurately judge inclinometer pipe 61, so that the measurement accuracy of inclinometer 6 is improved,
It avoids obliquity sensor module 64 and inaccuracy is installed, monitoring result is caused deviation occur.
It is above-described, the only preferable specific embodiment of the utility model, but the protection scope of the utility model is simultaneously
It is not limited to this, anyone skilled in the art within the technical scope disclosed by the utility model, according to this reality
It is subject to equivalent substitution or change with novel technical solution and its utility model design, should all covers the protection in the utility model
Within the scope of.
Claims (6)
- The wind power plant 1. a kind of inclination is alarmed, including tower bar (1), which is characterized in that the top of the tower bar (1), which rotates, to be connected It is connected to cabin (2), and the bottom end of tower bar (1) is fixedly connected with pedestal (9), the lower end in the outside of the tower bar (1) is provided with tower Door (5), and the outside of tower bar (1) is provided with warning lamp (4) close to the upper end of pyller (5), the inner sidewall of the tower bar (1) is fixed It being connected with inclinometer (6), one end of the inclinometer (6) is connected with data processor (7), and the one of the data processor (7) End is connected with control cabinet (8), and one end of the cabin (2) is provided with blade (3).
- The wind power plant 2. a kind of inclination according to claim 1 is alarmed, which is characterized in that inclinometer (6) packet It including inclinometer pipe (61), the top insertion of the inclinometer pipe (61) is provided with obliquity sensor module (64), and inclinometer pipe (61) Outside is provided with the first fixing sleeve (63) close to the lower end of obliquity sensor module (64), and the outside of the inclinometer pipe (61) is close The lower end of first fixing sleeve (63) is provided with horizontal bubble (62), and the outside of inclinometer pipe (61) is under horizontal bubble (62) End is provided with the second fixing sleeve (65).
- The wind power plant 3. a kind of inclination according to claim 2 is alarmed, which is characterized in that first fixing sleeve (63) all the same with the structure of the second fixing sleeve (65) and specification, and the first fixing sleeve (63) includes tube coupling (631), the tube coupling (631) one end is fixedly connected with fixed square tube (634), and the first hand-tighten bolts (632) are provided on front side of tube coupling (631), The top of the fixed square tube (634) is provided with the second hand-tighten bolts (633), and the one end of fixed square tube (634) is embedded in setting There are sliding shoe (635).
- The wind power plant 4. a kind of inclination according to claim 3 is alarmed, which is characterized in that the tube coupling (631) with Inclinometer pipe (61) is fixedly connected by the first hand-tighten bolts (632), and the sliding shoe (635) and fixed square tube (634) pass through the Two hand-tighten bolts (633) are fixedly connected, and the sliding shoe (635) is fixedly connected with the inner wall of tower bar (1) by external bolt.
- The wind power plant 5. a kind of inclination according to claim 1 is alarmed, which is characterized in that control cabinet (8) packet It includes control box body (81), the control box body (81) is internally provided with circuit board (83), before the circuit board (83) Surface is provided with wireless communication module (82), and the front surface of circuit board (83) is arranged close to the side of wireless communication module (82) There are one-chip computer module (84).
- The wind power plant 6. a kind of inclination according to claim 2 is alarmed, which is characterized in that the obliquity sensor mould Block (64) is connect by cable with warning lamp (4), data processor (7) and control cabinet (8).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821608391.5U CN208981882U (en) | 2018-09-30 | 2018-09-30 | A kind of inclination alarm wind power plant |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821608391.5U CN208981882U (en) | 2018-09-30 | 2018-09-30 | A kind of inclination alarm wind power plant |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208981882U true CN208981882U (en) | 2019-06-14 |
Family
ID=66786220
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821608391.5U Expired - Fee Related CN208981882U (en) | 2018-09-30 | 2018-09-30 | A kind of inclination alarm wind power plant |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208981882U (en) |
-
2018
- 2018-09-30 CN CN201821608391.5U patent/CN208981882U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190614 Termination date: 20200930 |
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CF01 | Termination of patent right due to non-payment of annual fee |