CN114791506A

CN114791506A - Wind power generation wind direction and wind speed on-line monitoring device

Info

Publication number: CN114791506A
Application number: CN202110097467.2A
Authority: CN
Inventors: 张清玲
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-25
Filing date: 2021-01-25
Publication date: 2022-07-26

Abstract

The invention discloses an online wind direction and wind speed monitoring device for wind power generation, which comprises a base, a protective shell and a stabilizing base, wherein electric hydraulic cylinders are installed at two ends of the top of the base through bolts, the stabilizing base is installed on an output shaft of the electric hydraulic cylinders through bolts, the protective shell is installed at the top of the stabilizing base through a fixing support and the bolts, a heat absorption bottom box is welded at the bottom of the protective shell and is filled with graphene heat absorption particles, a semiconductor refrigeration sheet is installed at one end of the heat absorption bottom box through an installation groove, a dehumidification fan is installed at the air inlet end of one end of the protective shell through an installation seat, a wind direction sensor is installed at the top of the protective shell through a support and the bolts, and a wind speed sensor is installed at one end of the wind direction sensor through the support and the bolts. The wind power generation wind direction and wind speed on-line monitoring device has various functions, is simple to operate, is convenient for on-line monitoring of wind direction and wind speed, meets various requirements in use, and is suitable for wide popularization and use.

Description

Wind power generation wind direction and wind speed on-line monitoring device

Technical Field

The invention relates to the technical field of on-line monitoring, in particular to a wind power generation wind direction and wind speed on-line monitoring device.

Background

Wind is the horizontal component of air movement, including magnitude and direction, i.e., wind speed and direction. The measurement of wind speed and wind direction has important significance in the fields of meteorological forecasting, environmental monitoring, wind power generation, building engineering and the like. At present, data such as wind speed and wind direction at a meteorological station are measured and gathered to a monitoring center, but the data are transmitted by adopting a wired communication network, the occupied area is large, the installation, the wiring and the debugging are complex, huge manpower and material resources are required to be spent especially when communication lines are laid in remote mountain areas with extensive and sparse people and regions with severe climatic environments, the investment cost and the maintenance cost are high, and the data are easy to damage. In addition, the meteorological stations are sparsely distributed, and the monitoring range is limited. The wireless sensor network integrates an embedded technology, a sensor technology, a wireless communication technology and a data fusion technology, can realize the functions of data acquisition, processing and transmission, and has wide application prospect in the fields of military, environment, medical treatment, agriculture and the like. The wireless sensor network measures the state data of the monitoring target by using wireless sensor nodes distributed in a monitoring area.

The existing wind power generation wind direction and wind speed on-line monitoring device has the following defects: 1. the sharing platform is not convenient to establish through wireless data transmission, and the heat dissipation effect is not obvious; 2. the height of equipment is not convenient to adjust, and automatic dehumidification cannot be achieved, so that the wind direction and wind speed online monitoring device for wind power generation is provided.

Disclosure of Invention

The invention mainly aims to provide an on-line wind direction and wind speed monitoring device for wind power generation, which can effectively solve the problems in the background art.

In order to realize the purpose, the invention adopts the technical scheme that:

an online wind direction and wind speed monitoring device for wind power generation comprises a base, a protective shell and a stabilizing base, wherein electric hydraulic cylinders are installed at two ends of the top of the base through bolts, the stabilizing base is installed on an output shaft of the electric hydraulic cylinders through bolts, the protective shell is installed at the top of the stabilizing base through a fixing support and the bolts, a heat absorption bottom box is welded at the bottom of the protective shell, graphene heat absorption particles are filled in the heat absorption bottom box, a semiconductor refrigeration sheet is installed at one end of the heat absorption bottom box through a mounting groove, a dehumidification fan is installed at one end of the protective shell through the mounting seat, a wind direction sensor is installed at the top of the protective shell through a support and the bolts, a wind speed sensor is installed at one end of the wind direction sensor through the support and the bolts, a display screen is embedded in one side of the protective shell through a limiting groove, and a humidity sensor is installed at one end of the display screen through a screw, the utility model discloses a protection casing, including protection casing, treater, fixing base, temperature controller, limiting plate, wireless transceiver module, protection casing, top have wireless transceiver module through the mounting screw in the protection casing, the treater is installed through spacing seat in the bottom in the protection casing, temperature controller's one end is passed through the fixing base and is installed temperature controller, temperature controller's one end is provided with the UPS power through the limiting plate.

Furthermore, the refrigerating end of the semiconductor refrigerating sheet is positioned in the heat absorption bottom box.

Furthermore, the other side of the protective shell is provided with a heat dissipation port, and the output end of the processor is connected with the dehumidification fan through a wire.

Furthermore, the thermal-insulating layer is made of glass fiber materials, the outer surface layer of the protective shell is provided with a weatherproof layer, and the weatherproof layer is a polytetrafluoroethylene coating.

Furthermore, the detection probe of the humidity sensor is positioned in the protective shell, and the output end of the UPS power supply is connected with the input end of the processor through a lead.

Furthermore, foraminiferous rubber sleeve is installed through the preformed hole in the top of protective housing, and wireless transceiver module's signal line runs through foraminiferous rubber sleeve.

Furthermore, the output end and the input end of the processor are connected with the input end of the wireless transceiver module and the output ends of the wind direction sensor, the wind speed sensor and the humidity sensor through leads.

Furthermore, the output end of the temperature controller is connected with the input end of the semiconductor refrigerating sheet through a lead.

Further, the bottom both ends of base are passed through the mounting bracket and are installed the universal wheel that can brake, the top coating has heat conduction silicone grease in the bottom box of heat absorption.

Compared with the prior art, the invention has the following beneficial effects:

1. the device is moved to a specified position, outdoor wind direction and wind speed can be conveniently detected by using the wind direction sensor and the wind speed sensor, detected information data are transmitted to a processor for analysis and processing, and then the processed information is transmitted to a computer connected with the processor through the wireless transceiver module, so that remote monitoring is facilitated, an Internet of things information sharing platform is established, the intelligent degree is high, manpower and material resources are saved, and monitoring information data can be conveniently displayed through a display screen.

2. The graphene heat absorption particles in the heat absorption bottom box are convenient to continuously absorb heat in the protective shell, the phenomenon that an electronic element is aged due to the fact that the temperature in the protective shell is high is avoided, when the heat absorption is not timely, and the internal temperature is higher than a set value of a temperature controller, the temperature controller is used for automatically controlling the semiconductor refrigerating sheet to work, the heat absorption bottom box is refrigerated and cooled, and the graphene heat absorption particles are enabled to continuously absorb heat after being cooled.

3. Utilize humidity transducer to be convenient for detect the humidity in the protecting casing, with data transmission to the treater in, can automatic control dehumidification fan dehumidify to the protecting casing in when exceeding safe humidity, the insulating layer is made for the glass fiber material, thermal-insulated effect is showing, avoids the internal transmission of outside heat, influences electronic component work, opens electric hydraulic cylinder and is convenient for with the protecting casing jacking to different heights, satisfies different user demands, is fit for extensively using widely.

Drawings

FIG. 1 is a schematic view of an overall structure of an on-line wind direction and wind speed monitoring device for wind power generation according to the present invention.

FIG. 2 is a side view of a protective housing of an on-line wind direction and wind speed monitoring device for wind power generation of the present invention.

FIG. 3 is a schematic structural diagram of a heat insulation layer of an online wind direction and wind speed monitoring device for wind power generation.

In the figure: 1. a heat dissipation port; 2. a UPS power supply; 3. a wind direction sensor; 4. a rubber sleeve with a hole; 5. a wireless transceiver module; 6. a wind speed sensor; 7. a temperature controller; 8. a protective housing; 9. a processor; 10. a dehumidifying fan; 11. heat-conducting silicone grease; 12. a semiconductor refrigerating sheet; 13. a heat-absorbing bottom box; 14. graphene heat-absorbing particles; 15. an electric hydraulic cylinder; 16. a base; 17. the universal wheel can be braked; 18. a display screen; 19. a stabilizing base; 20. a humidity sensor; 21. an insulating layer.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

As shown in fig. 1-3, an on-line wind direction and wind speed monitoring device for wind power generation comprises a base 16, a protective casing 8 and a stabilizing base 19, wherein electric hydraulic cylinders 15 are installed at two ends of the top of the base 16 through bolts, the stabilizing base 19 is installed on output shafts of the electric hydraulic cylinders 15 through bolts, the protective casing 8 is installed at the top of the stabilizing base 19 through fixing supports and bolts, a heat absorption bottom box 13 is welded at the bottom of the protective casing 8, graphene heat absorption particles 14 are filled in the heat absorption bottom box 13, a semiconductor refrigeration sheet 12 is installed at one end of the heat absorption bottom box 13 through a mounting groove, a dehumidification fan 10 is installed at one air inlet end of the protective casing 8 through a mounting seat, a wind direction sensor 3 is installed at the top of the protective casing 8 through a support and a bolt, a wind speed sensor 6 is installed at one end of the wind direction sensor 3 through a support and a bolt, one side of protective housing 8 inlays through the spacing groove and is equipped with display screen 18, mounting screw humidity transducer 20 is passed through to the one end of display screen 18, protective housing 8's inner surface layer is provided with insulating layer 21, there is wireless transceiver module 5 at protective housing 8 internal top through mounting screw, treater 9 is installed through spacing seat to the bottom in protective housing 8, temperature controller 7 is installed through the fixing base to the one end of treater 9, temperature controller 7's one end is provided with UPS power 2 through the limiting plate.

Wherein, the refrigerating end of the semiconductor refrigerating sheet 12 is positioned in the heat absorption bottom box 13.

In this embodiment, as shown in fig. 1, the temperature controller 7 is used to automatically control the semiconductor cooling plate 12 to work, so as to cool the inside of the heat-absorbing bottom box 13.

The other side of the protective shell 8 is provided with a heat dissipation port 1, and the output end of the processor 9 is connected with a dehumidifying fan 10 through a wire.

The heat insulation layer 21 is made of glass fiber materials, the outer surface layer of the protective shell 8 is provided with a weatherproof layer, and the weatherproof layer is a polytetrafluoroethylene coating.

In the embodiment, as shown in fig. 1, the weathering layer is a polytetrafluoroethylene coating, so that the weathering effect is remarkable, the protective shell 8 is not easy to corrode, and the weather-resistant layer is durable.

Wherein, the detection probe of the humidity sensor 20 is positioned in the protective shell 8, and the output end of the UPS power supply 2 is connected with the input end of the processor 9 through a wire.

In this embodiment, as shown in fig. 2, the humidity sensor 20 is used to detect the humidity inside the protective casing 8, and transmit data to the processor 9, and when the safe humidity is exceeded, the dehumidifying fan 10 is automatically controlled to dehumidify the inside of the protective casing 8.

Wherein, foraminiferous rubber sleeve 4 is installed through the preformed hole in the top of protective housing 8, and wireless transceiver module 5's signal line runs through foraminiferous rubber sleeve 4.

In this embodiment, as shown in fig. 1, the rubber sleeve 4 with holes is used to improve the sealing effect of the protective housing 8.

The output end and the input end of the processor 9 are connected with the input end of the wireless transceiver module 5 and the output ends of the wind direction sensor 3, the wind speed sensor 6 and the humidity sensor 20 through leads.

In the embodiment, as shown in fig. 1, the wind direction sensor 3 and the wind speed sensor 6 are used for conveniently detecting the wind direction and the wind speed outdoors, and information data obtained by detection is transmitted to the processor 9.

Wherein, the output end of the temperature controller 7 is connected with the input end of the semiconductor refrigeration piece 12 through a lead.

Wherein, the bottom both ends of base 16 are installed through the mounting bracket and are had brakeable universal wheel 17, the interior top coating of box 13 has heat conduction silicone grease 11 at the bottom of the heat absorption.

In the embodiment, as shown in fig. 1, the heat conduction rate is significantly increased by coating the heat-conducting silicone grease 11.

Example two

As shown in fig. 1-3, an on-line wind direction and wind speed monitoring device for wind power generation comprises a base 16, a protective shell 8 and a stabilizing base 19, wherein electric hydraulic cylinders 15 are installed at two ends of the top of the base 16 through bolts, the stabilizing base 19 is installed at an output shaft of the electric hydraulic cylinders 15 through bolts, the protective shell 8 is installed at the top of the stabilizing base 19 through fixing supports and bolts, heat absorption bottom boxes 13 are welded at the bottom of the protective shell 8, graphene heat absorption particles 14 are filled in the heat absorption bottom boxes 13, semiconductor refrigerating sheets 12 are installed at one ends of the heat absorption bottom boxes 13 through mounting grooves, dehumidification fans 10 are installed at one air inlet ends of the protective shell 8 through mounting seats, a wind direction sensor 3 is installed at the top of the protective shell 8 through supports and bolts, and a wind speed sensor 6 is installed at one end of the wind direction sensor 3 through supports and bolts, one side of the protective housing body 8 is embedded with a display screen 18 through a limiting groove, the one end of the display screen 18 passes through a screw installation humidity sensor 20, the inner surface layer of the protective housing body 8 is provided with a heat insulation layer 21, the top of the protective housing body 8 is provided with a wireless transceiver module 5 through a screw, a processor 9 is installed at the bottom of the protective housing body 8 through a limiting seat, a temperature controller 7 is installed at one end of the processor 9 through a fixing seat, and a UPS power supply 2 is arranged at one end of the temperature controller 7 through a limiting plate.

The heat insulation layer 21 is made of glass fiber materials, the outer surface layer of the protective shell 8 is provided with a weathering layer, and the weathering layer is an organic silicon coating.

In this embodiment, as shown in fig. 1, the weathering layer is an organic silicon coating, and has a significant weathering effect, is not easily corroded in the protective housing 8, and is durable in use.

In the embodiment, as shown in fig. 2, a humidity sensor 20 is used to facilitate detecting the humidity inside the protective casing 8, and transmit data to the processor 9, so as to automatically control the dehumidifying fan 10 to dehumidify the inside of the protective casing 8 when the safe humidity is exceeded.

The output end and the input end of the processor 9 are connected with the input end of the wireless transceiving module 5 and the output ends of the wind direction sensor 3, the wind speed sensor 6 and the humidity sensor 20 through leads.

In the embodiment, as shown in fig. 1, the heat conducting rate is significantly improved by coating the heat conducting silicone grease 11.

It should be noted that, the invention is a wind direction and wind speed online monitoring device for wind power generation, when in use, the device is moved to a designated position, the wind direction sensor 3 and the wind speed sensor 6 are used for conveniently detecting the outdoor wind direction and wind speed, the detected information data are transmitted to the processor 9 for analysis and processing, and then the processed information is transmitted to the computer connected with the processor through the wireless transceiver module 5, so as to be convenient for remote monitoring, establish an internet of things information sharing platform, the intelligent degree is high, manpower and material resources are saved, the display screen 18 is used for conveniently displaying the monitored information data, the graphene heat absorption particles 14 in the heat absorption bottom box 13 are used for continuously absorbing the heat in the protective shell 8, the aging of electronic components caused by high temperature in the protective shell 8 is avoided, when the heat absorption is not timely, and the internal temperature is higher and exceeds the set value of the temperature controller 7, utilize 7 automatic control semiconductor refrigeration pieces 12 work of temperature controller, to refrigerating and cooling in the box 13 at the bottom of heat absorption, make graphite alkene heat absorption 14 continuous heat absorption after the cooling, utilize humidity transducer 20 to be convenient for detect the humidity in the protective housing 8, with data transmission to in the treater 9, can automatic control dehumidification fan 10 dehumidify in to protective housing 8 when exceeding safe humidity, insulating layer 21 makes for glass fiber material, thermal-insulated effect is showing, avoid the internal transmission of outside heat, influence electronic component work, it is convenient for with the different heights of protective housing 8 jacking to open electric hydraulic cylinder 15, satisfy different user demands, and the device is suitable for wide use widely.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a wind power generation wind direction wind speed on-line monitoring device, includes base (16), protective housing (8) and stable base (19), its characterized in that: the solar energy collector is characterized in that electric hydraulic cylinders (15) are installed at two ends of the top of the base (16) through bolts, output shafts of the electric hydraulic cylinders (15) are installed on stabilizing bases (19) through bolts, protective cases (8) are installed at the tops of the stabilizing bases (19) through fixing supports and the bolts, heat absorption bottom boxes (13) are welded at the bottoms of the protective cases (8), graphene heat absorption particles (14) are filled in the heat absorption bottom boxes (13), semiconductor refrigeration sheets (12) are installed at one ends of the heat absorption bottom boxes (13) through mounting grooves, dehumidification fans (10) are installed at air inlet ends of one ends of the protective cases (8) through mounting seats, wind direction sensors (3) are installed at the tops of the protective cases (8) through supports and the bolts, wind speed sensors (6) are installed at one ends of the wind direction sensors (3) through the supports and the bolts, and display screens (18) are embedded in one sides of the protective cases (8) through limiting grooves, screw installation humidity transducer (20) are passed through to the one end of display screen (18), the inner surface layer of protecting sheathing (8) is provided with insulating layer (21), there is wireless transceiver module (5) at the top through the mounting screw in protecting sheathing (8), treater (9) are installed through spacing seat to the bottom in protecting sheathing (8), temperature controller (7) are installed through the fixing base to the one end of treater (9), the one end of temperature controller (7) is provided with UPS power (2) through the limiting plate.

2. The wind power generation wind direction and wind speed on-line monitoring device according to claim 1, characterized in that: the refrigerating end of the semiconductor refrigerating sheet (12) is positioned in the heat absorption bottom box (13).

3. The wind power generation wind direction and wind speed on-line monitoring device according to claim 1, characterized in that: the other side of the protective shell (8) is provided with a heat dissipation port (1), and the output end of the processor (9) is connected with a dehumidification fan (10) through a wire.

4. The wind power generation wind direction and wind speed on-line monitoring device according to claim 1, characterized in that: the heat insulation layer (21) is made of glass fiber materials, the outer surface layer of the protective shell (8) is provided with a weatherproof layer, and the weatherproof layer is a polytetrafluoroethylene coating.

5. The wind power generation wind direction and wind speed on-line monitoring device according to claim 1, characterized in that: the detection probe of the humidity sensor (20) is positioned in the protective shell (8), and the output end of the UPS (2) is connected with the input end of the processor (9) through a wire.

6. The wind power generation wind direction and wind speed on-line monitoring device according to claim 1, characterized in that: the top of the protective shell (8) is provided with a perforated rubber sleeve (4) through a reserved hole, and a signal wire of the wireless transceiver module (5) penetrates through the perforated rubber sleeve (4).

7. The wind power generation wind direction and wind speed on-line monitoring device according to claim 1, characterized in that: the output end and the input end of the processor (9) are connected with the input end of the wireless transceiving module (5) and the output ends of the wind direction sensor (3), the wind speed sensor (6) and the humidity sensor (20) through leads.

8. The wind power generation wind direction and wind speed on-line monitoring device according to claim 1, characterized in that: the output end of the temperature controller (7) is connected with the input end of the semiconductor refrigerating sheet (12) through a lead.

9. The wind power generation wind direction and wind speed on-line monitoring device according to claim 1, characterized in that: the universal wheel (17) of can braking is installed through the mounting bracket in the bottom both ends of base (16), the top coating has heat conduction silicone grease (11) in heat absorption end box (13).