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CN-121995382-A - Multifunctional sun Radar velocimeter

CN121995382ACN 121995382 ACN121995382 ACN 121995382ACN-121995382-A

Abstract

The invention relates to the technical field of solar energy. And discloses a multifunctional solar radar velocimeter, which comprises a solar panel and an adjusting device connected with the bottom, wherein the adjusting device integrates a driving, sliding and reinforcing mechanism, and the placing angle and the unfolding state of the solar panel can be adjusted to improve the light energy absorption efficiency. The solar panel is driven to rotate by the driving device through gear transmission and is adapted to sunlight in different directions, the sliding device drives the solar panel to be unfolded or folded stably by means of transmission of bevel gears, racks and the like, the light receiving area is increased, the solar panel is adapted to various installation spaces, and the reinforcing device is locked and fixed with the clamping structure through the tightening assembly to resist external force and prevent loosening and deviation. The three are cooperated to work, solve the existing equipment and adjust inconvenient, fixed unstable, integrate low scheduling problem, promote equipment operation stability and environment suitability, adapt outdoor road scene, have energy-concerving and environment-protective and easy maintenance characteristic concurrently.

Inventors

  • LIU CUIMEI
  • CHENG XIAO
  • ZUO YAMIN
  • YANG JIANXIN
  • ZONG XIAOQIAN
  • CAO SHUAI

Assignees

  • 常州机电职业技术学院

Dates

Publication Date
20260508
Application Date
20251231

Claims (7)

  1. 1. The multifunctional solar radar velocimeter comprises two solar panels (1) and is characterized in that the bottoms of the two solar panels (1) are correspondingly connected with an adjusting device (3), and the adjusting device (3) is used for adjusting the placement angle and the unfolding state of the solar panels (1) so as to improve the solar energy absorption efficiency; The adjusting device (3) comprises a driving device (31), a sliding device (32) and a reinforcing device (33), wherein the driving device (31) drives the adjusting device (3) to integrally rotate, so that the two solar panels (1) correspondingly connected with the top are driven to synchronously turn to adapt to sunlight irradiation in different directions; The sliding device (32) is used for driving one solar panel (1) and the other solar panel (1) to push the translation and the expansion, so that the overall light receiving area of the two solar panels (1) is increased; the reinforcing device (33) is used for locking and fixing the bottoms of the unfolded or rotated solar panel (1) and the adjusting device (3), so that the solar panel (1) can be kept stable at different placing positions, and position deviation or structure loosening caused by external forces such as wind power, vibration and the like is prevented.
  2. 2. The multifunctional solar radar velocimeter according to claim 1, wherein the driving device (31) comprises a first driving block (311), a first gear (312) is connected to an output shaft end of the first driving block (311), a second gear (313) is connected to an outer surface of the first gear (312) in a meshed mode, and a hollow bottom plate (314) is connected to a protruding portion at the top of the second gear (313).
  3. 3. The multifunctional solar radar velocimeter according to claim 2, wherein groove plates (315) are fixedly connected to two sides of the top of the hollow bottom plate (314), pulleys (316) are movably connected to hollow portions of the two groove plates (315), sliding blocks (317) are fixedly connected to two ends of the top of the hollow bottom plate (314), sliding rods (318) are movably connected to grooves of the two sliding blocks (317), and the two sliding rods (318) and the two pulleys (316) are connected with the sliding device (32).
  4. 4. The multifunctional solar radar velocimeter according to claim 3, wherein the sliding device (32) comprises a second driving block (321), the bottoms of the first driving block (311) and the second driving block (321) are fixedly connected with a reinforcing device (33), the output shaft end of the second driving block (321) is correspondingly connected with a first bevel gear (322), two ends of the outer surface of the first bevel gear (322) are respectively connected with a second bevel gear (323) in a meshed mode, and the protruding portions of the rear ends of the two second bevel gears (323) are respectively fixedly connected with a third gear (324).
  5. 5. The multifunctional solar radar velocimeter according to claim 4, wherein racks (325) are engaged and connected to the outer surfaces of the two third gears (324), moving plates (326) are fixedly connected to the tops of the two racks (325), bottoms of the two moving plates (326) are fixedly connected to the tops of the sliding rods (318), first connecting plates (327) and second connecting plates (328) are correspondingly connected to the tops of the two moving plates (326), the tops of the first connecting plates (327) and the second connecting plates (328) are fixedly connected to the bottoms of the two solar panels (1), and two ends of the first connecting plates (327) are connected to the bottoms of the pulleys (316).
  6. 6. The multifunctional solar radar velocimeter according to claim 4, wherein the reinforcement device (33) comprises a fixed plate (331), a hollow part at the top of the fixed plate (331) is fixedly connected with the bottoms of the first driving block (311) and the second driving block (321), a third driving block (332) is fixedly connected with a groove at one side of the fixed plate (331), a first rotating block (333) is correspondingly connected with an output shaft end of the third driving block (332), and one end of a bandage (334) is movably connected with the outer surface of the first rotating block (333).
  7. 7. The multifunctional solar radar velocimeter according to claim 6, wherein a second rotating block (335) is movably connected to the other end of the bandage (334), a threaded rod (336) is fixedly connected to the center of the second rotating block (335), long columns (337) are correspondingly connected to two sides of the threaded rod (336), the threaded rod (336) and the two long columns (337) are connected to two ends of the bottom of the fixed plate (331), and clamping blocks (338) are movably connected to two ends of the outer surfaces of the threaded rod (336) and the two long columns (337).

Description

Multifunctional sun Radar velocimeter Technical Field The invention relates to the technical field of solar energy, in particular to a multifunctional solar radar velocimeter. Background The solar radar velocimeter is widely applied to a road velocimetry scene because of the advantages of no need of an external power supply, energy conservation and environmental protection, and the core of the solar radar velocimeter relies on a solar panel to efficiently collect light energy so as to ensure continuous operation of equipment. However, the solar panel adjusting structure of the conventional solar radar velocimeter has obvious defects that most of equipment adopts a fixed or manually-adjustable solar panel, cannot automatically adjust the orientation according to the sun azimuth, has low light receiving coverage rate and insufficient light energy collecting efficiency, and is difficult to adapt to the requirements of complex outdoor environments, so that unstable power supply of the equipment is easily caused; The partially-expandable solar panel adopts a simple sliding structure, lacks of accurate linkage and track limiting design, is Yi Kadu and offset when being expanded and folded, has poor light receiving area adjustment flexibility, and cannot be adapted to different installation spaces; Meanwhile, the regulated solar panel and the base lack of a reliable reinforcing mechanism, external forces such as outdoor wind power, vehicle passing vibration and the like easily cause loosening of the structure and position deviation, so that the speed measurement precision is affected, and the service life of equipment is shortened. In addition, current adjusting device mostly single function design, rotatory, expansion, reinforced structure mutually independent, and degree of integration is low, and part redundancy and installation are loaded down with trivial details, have increased equipment manufacturing cost and maintenance degree of difficulty. Based on the above, a multifunctional solar radar velocimeter is invented to solve the above problems. Disclosure of Invention The invention aims to provide a multifunctional solar radar velocimeter so as to solve the problems in the background technology. In order to achieve the purpose, the multifunctional solar radar velocimeter comprises two solar panels, wherein the bottoms of the two solar panels are correspondingly connected with an adjusting device, and the adjusting device is used for adjusting the placement angle and the unfolding state of the solar panels so as to improve the solar energy absorption efficiency; the adjusting device comprises a driving device, a sliding device and a reinforcing device, wherein the driving device drives the adjusting device to integrally rotate so as to drive the two solar panels correspondingly connected with the top to synchronously turn, so that sunlight irradiation in different directions is adapted; the sliding device is used for driving one solar panel and the other solar panel to push and translate to expand, so that the overall light receiving area of the two solar panels is increased, and the solar energy collecting capacity of the equipment is improved; The reinforcing device is used for locking and fixing the unfolded or rotated solar panel and the bottom of the adjusting device, so that the solar panel can be kept stable at different placing positions, position deviation or structure loosening caused by external forces such as wind force, vibration and the like is prevented, and stable operation of equipment is ensured. As a preferable technical scheme of the invention, the driving device comprises a first driving block, wherein the output shaft end of the first driving block is connected with a first gear, the outer surface of the first gear is connected with a second gear in a meshed manner, and the protruding part at the top of the second gear is connected with a hollow bottom plate. As a preferable technical scheme of the invention, the two sides of the top of the hollow bottom plate are fixedly connected with groove plates, the hollow parts of the two groove plates are movably connected with pulleys, the two ends of the top of the hollow bottom plate are fixedly connected with sliding blocks, the grooves of the two sliding blocks are movably connected with sliding rods, and the two sliding rods and the two pulleys are connected with a sliding device. As a preferable technical scheme of the invention, the sliding device comprises a second driving block, the bottoms of the first driving block and the second driving block are fixedly connected with a reinforcing device, the output shaft end of the second driving block is correspondingly connected with a first bevel gear, two ends of the outer surface of the first bevel gear are respectively connected with a second bevel gear in a meshed manner, and the protruding parts of the rear ends of the two second bevel gears are respectively fixedly connected with a third