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CN-122014504-A - Breeze power generation system for highway monitoring wind-solar hybrid power generation

CN122014504ACN 122014504 ACN122014504 ACN 122014504ACN-122014504-A

Abstract

The invention relates to the technical field of breeze power generation of new energy, in particular to a breeze power generation system for monitoring wind-solar hybrid power generation on a highway, which solves the problems that a rotating blade for breeze power generation is completely positioned outside, and the generated energy of breeze power generation equipment is fixed under the condition that wind power is unchanged, so that an energy storage device needs a long time to be supplemented. The utility model provides a breeze power generation system for complementary electricity generation is stored up to highway control scene, includes stand, solar panel, road monitoring probe, breeze generator and energy storage module, solar panel detachable installation and the stand outside, the top both sides of stand all are fixed with the support, road monitoring probe detachable installs on the support. The invention utilizes the solar power generation panel to generate light energy and utilizes the breeze generator to generate wind energy, which is used for supplying current to the road monitoring probe and ensuring the normal operation of the road monitoring probe.

Inventors

  • CAO SHAOFEI
  • ZHANG YUN
  • GAO YULU
  • SUN HENGZHE
  • ZHANG JIAN
  • LI ZHUANGZHUANG
  • WANG JUNHUA
  • LIU HUAQI
  • GUO WEI
  • TANG QI

Assignees

  • 中交北疆工程咨询有限公司
  • 内蒙古交通集团有限公司锡林郭勒分公司

Dates

Publication Date
20260512
Application Date
20251213

Claims (10)

  1. 1. The breeze power generation system for highway monitoring wind-solar energy storage complementary power generation comprises an upright post (1), a solar power generation plate (2), a road monitoring probe (3), a breeze power generator (4) and an energy storage module, and is characterized in that the solar power generation plate (2) is detachably arranged outside the upright post (1), brackets are fixed on two sides of the top end of the upright post (1), the road monitoring probe (3) is detachably arranged on the brackets, and the top end of the upright post (1) is rotatably arranged on the breeze power generator (4); the energy storage module comprises a storage battery, an inverter and three groups of transmission wires, wherein one group of transmission wires are positioned between the storage battery and the inverter, one group of transmission wires are connected with the storage battery and the road monitoring probe (3), one group of transmission wires are connected with the solar power generation panel (2) and the inverter, one group of transmission wires are positioned between the transmission wires and the inverter and the breeze generator (4), and a current transmission assembly (5) is connected between the breeze generator (4) and the transmission wires.
  2. 2. The breeze power generation system for highway monitoring wind-solar hybrid power generation according to claim 1, wherein the breeze power generator (4) comprises a rotating connecting rod (41), the bottom end of the rotating connecting rod (41) is connected with an upright post (1) through a roller bearing, a supporting rod (42) is fixed at the top end of the rotating connecting rod (41), a wind direction tail wing (46) is fixed at one end of the supporting rod (42), a power generation outer cylinder (43) is arranged at the outer side of the other end of the supporting rod (42), fixing frames (45) are fixed at the upper side and the lower side of the power generation outer cylinder (43), one ends of the two fixing frames (45) are respectively fixed with the supporting rod (42) and the rotating connecting rod (41), an internal power generation assembly (44) is arranged in the middle of the power generation outer cylinder (43), and the internal power generation assembly (44) is rotatably arranged at the outer side of the end of the supporting rod (42).
  3. 3. The breeze power generation system for highway monitoring wind-solar hybrid power generation according to claim 2, wherein the power generation outer cylinder (43) comprises a fixed outer shell (435), the fixed outer shell (435) is fixed with a fixed frame (45), a rotary inner shell (436) is rotatably arranged on the inner side of the fixed outer shell (435), a first wind power generation assembly (437) is arranged between the fixed outer shell (435) and the rotary inner shell (436), a wind-guiding cover (431) is fixed on the inner side of one end of the rotary inner shell (436), the wind-guiding cover (431) is funnel-shaped, and a plurality of rotary fan blades (432) are fixed on the outer annular array of the wind-guiding cover (431).
  4. 4. The breeze power generation system for highway monitoring wind-solar hybrid power generation according to claim 3, wherein the middle of the induced draft hood (431) is provided with an air inlet (434), the inner side of the induced draft hood (431) is provided with a plurality of drainage strips (433), the drainage strips (433) are distributed in an annular array around the axis of the air inlet (434), and the drainage strips (433) are spirally distributed on the inner side of the induced draft hood (431).
  5. 5. The breeze power generation system for highway monitoring wind-solar hybrid power generation according to claim 4, wherein the internal power generation assembly (44) comprises a rotating sleeve (441), the axis of the rotating sleeve (441) coincides with the axis of the air inlet (434), a plurality of rotating blades (443) distributed in a ring-shaped array are fixed on the outer surface of the rotating sleeve (441), the rotating blades (443) are spirally fixed on the outer side of the rotating sleeve (441), and a second wind power generation assembly (445) is arranged between the rotating sleeve (441) and the supporting rod (42).
  6. 6. The breeze power generation system for highway monitoring wind-solar hybrid power generation according to claim 5, wherein one end of the rotating sleeve (441) is inserted with a limit screw (444) in a penetrating manner, the limit screw (444) is connected with the supporting rod (42) through threads, a limit plate (442) is arranged between the limit screw (444) and the rotating sleeve (441), and isolation balls (446) are embedded between the rotating sleeve (441) and the supporting rod (42) and between the rotating sleeve and the limit plate (442) in a rolling manner.
  7. 7. The system for highway monitoring wind-solar hybrid generation of claim 6, wherein said first wind power generation assembly (437) and said second wind power generation assembly (445) each comprise a step-up gear, a rotor, a stator, and an induction coil.
  8. 8. The breeze power generation system for highway monitoring wind-solar hybrid power generation according to claim 7, wherein the current transmission assembly (5) is located inside the rotating connecting rod (41), the current transmission assembly (5) comprises a connecting wire (57) and a main storage wire (53), one end of the connecting wire (57) is fixedly provided with a first wire (51) and a second wire (52), the other end of the first wire (51) penetrates through the rotating connecting rod (41) and the fixed shell (435) to be connected with the first wind power generation assembly (437), and the other end of the second wire (52) penetrates through the rotating connecting rod (41), the supporting rod (42) and is connected with the second wind power generation assembly (445).
  9. 9. The breeze power generation system for highway monitoring wind-solar hybrid power generation according to claim 8, wherein one end of the main storage wire (53) is connected with the inverter through a transmission wire, the other end of the main storage wire (53) is fixed with a second conductor (55), and the bottom end of the connection wire (57) is fixed with a first conductor (54).
  10. 10. The breeze power generation system for highway monitoring wind-solar hybrid power generation according to claim 9, wherein the first conductor (54) is rotatably connected with the second conductor (55), insulating shells (56) are sleeved on the outer sides of the first conductor (54) and the second conductor (55), and the insulating shells (56) are rotatably connected with the rotary connecting rod (41).

Description

Breeze power generation system for highway monitoring wind-solar hybrid power generation Technical Field The invention relates to the technical field of new energy breeze power generation, in particular to a breeze power generation system for highway monitoring wind-solar hybrid power generation. Background The wind-solar energy storage complementary power generation is also called wind-solar complementary power generation, is a clean energy power generation mode combining wind energy and solar energy, and consists of a wind driven generator, a solar cell matrix, a storage battery pack, an inverter and the like, and realizes energy complementation between day and night and seasons through wind-electricity and light-electricity conversion, wherein the wind power generation comprises small wind power generation and large wind power generation; The breeze power generation is a small wind power generation technology, and is different from the common wind power generation in that breeze power generation utilizes breeze energy at low wind speed, compared with the traditional wind power generation, the breeze power generation does not need huge blades and high-altitude brackets, the natural ecological environment is not obviously influenced, and the breeze power generation device is small and exquisite, is simple to install, is suitable for distributed power supply in various occasions, and has relatively low cost. The rotating blades for breeze power generation are completely positioned outside, and the generated energy of breeze power generation equipment is fixed under the condition that the wind power is unchanged, so that the energy storage device needs to be supplemented for a long time; therefore, the existing requirements are not met, and a breeze power generation system for highway monitoring wind-solar hybrid power generation is provided. Disclosure of Invention The invention aims to provide a breeze power generation system for monitoring wind-solar energy storage complementary power generation on a highway, which aims to solve the problem that the energy storage device needs a long time to be supplemented because the rotating blades for breeze power generation provided in the background art are completely positioned outside and the power generation capacity of breeze power generation equipment is fixed under the condition that the wind power is unchanged. The invention provides a breeze power generation system for highway monitoring wind-solar energy storage complementary power generation, which comprises a stand column, a solar power generation plate, a road monitoring probe, a breeze power generator and an energy storage module, wherein the solar power generation plate is detachably arranged outside the stand column, brackets are fixed on two sides of the top end of the stand column, the road monitoring probe is detachably arranged on the brackets, and the breeze power generator is rotatably arranged on the top end of the stand column; The energy storage module comprises a storage battery, an inverter and three groups of transmission wires, wherein one group of transmission wires are positioned between the storage battery and the inverter, one group of transmission wires are connected with the storage battery and the road monitoring probe, one group of transmission wires are connected with the solar power generation panel and the inverter, one group of transmission wires are positioned between the wires and the inverter and the breeze generator, and a current transmission assembly is connected between the breeze generator and the transmission wires. Preferably, the breeze generator comprises a rotating connecting rod, the bottom of the rotating connecting rod is connected with an upright post through a roller bearing, a supporting rod is fixed at the top end of the rotating connecting rod, a wind direction tail wing is fixed at one end of the supporting rod, a power generation outer cylinder is arranged at the outer side of the other end of the supporting rod, fixing frames are fixed at the upper and lower sides of the power generation outer cylinder, two fixing frames are respectively fixed with the supporting rod and the rotating connecting rod at one end of the fixing frames, an internal power generation assembly is arranged in the middle of the power generation outer cylinder, and the internal power generation assembly is rotatably arranged at the outer side of the end part of the supporting rod. Preferably, the power generation outer cylinder comprises a fixed outer shell, the fixed outer shell is fixed with a fixed frame, a rotary inner shell is rotatably arranged on the inner side of the fixed outer shell, a first wind power generation assembly is arranged between the fixed outer shell and the rotary inner shell, a wind scooper is fixed on the inner side of one end of the rotary inner shell, the wind scooper is funnel-shaped, and a plurality of rotary fan blades are fixed on an annular array on