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CN-122009004-A - Blade transport vehicle, monitoring system, monitoring method and electronic equipment

CN122009004ACN 122009004 ACN122009004 ACN 122009004ACN-122009004-A

Abstract

The disclosure relates to a blade transport vehicle, a monitoring system, a monitoring method and an electronic device, the blade transport vehicle comprising a trailer, a blade fixed on the trailer by a mounting assembly, a cushioning member provided between the trailer and the blade, the cushioning member having an elastic deformation characteristic and deforming with a change in distance between the trailer and the blade, and a pressure sensor configured to monitor a pressure applied by the blade to the cushioning member. The technical scheme provided by the disclosure can prevent damage in the transportation process of the blades and ensure the installation quality of the wind power blades.

Inventors

  • WANG CHAOLUN
  • CHEN WENGUANG
  • LIANG GUOQING
  • LIU RUI
  • LIU HAIBIAO
  • Lv Chengkang

Assignees

  • 远景能源有限公司

Dates

Publication Date
20260512
Application Date
20260203

Claims (11)

  1. 1. A blade transport vehicle, characterized in that the blade transport vehicle comprises: A trailer (100); -a blade (200), the blade (200) being fixed to the trailer (100) by a mounting assembly (300); a cushioning member (700), the cushioning member (700) being provided between the trailer (100) and the blade (200), the cushioning member (700) having an elastic deformation characteristic and the cushioning member (700) being deformed with a change in a distance between the trailer (100) and the blade (200); -a pressure sensor (710), the pressure sensor (710) being configured to monitor a pressure exerted by the blade (200) on the cushioning member (700).
  2. 2. The blade transport vehicle according to claim 1, characterized in that the cushioning member (700) is an airbag; The pressure sensor (710) is a pressure sensor, the pressure sensor (710) is connected with the buffer component (700), and the pressure sensor (710) is used for monitoring the air pressure in the buffer component (700) so as to judge the pressure applied by the blade (200) to the buffer component (700) based on the air pressure.
  3. 3. The blade transport vehicle according to claim 1, characterized in that the blade (200) has a reinforced area, the cushioning member (700) being supported at the reinforced area of the blade (200).
  4. 4. A blade transportation vehicle according to claim 3, characterized in that the cushioning members (700) and the pressure sensors (710) each have two, the two cushioning members (700) and the two pressure sensors (710) being arranged in a one-to-one correspondence; Two of the cushioning members (700) are supported at different ones of the reinforcing regions, respectively.
  5. 5. The blade transport vehicle of any of claims 1-4, wherein the mounting assembly (300) includes a blade root cradle (310) and a blade tip cradle (320), the blade root cradle (310) and the blade tip cradle (320) being adjacent opposite ends of the trailer (100) in a length direction, respectively, the blade (200) being mounted on the blade root cradle (310) and the blade tip cradle (320), and the blade root cradle (310) being disposed adjacent a blade root of the blade (200), a blade tip of the blade (200) passing through the blade tip cradle (320) and extending away from the blade root cradle (310); The cushioning member (700) is positioned between the blade root cradle (310) and the blade tip cradle (320).
  6. 6. The blade transportation vehicle according to claim 5, further comprising a photovoltaic panel (321) and an energy storage device (322), wherein the energy storage device (322) is electrically connected to the photovoltaic panel (321) and the pressure sensor (710), respectively.
  7. 7. The blade transport vehicle of claim 5, further comprising a first area monitoring device (410), a second area monitoring device (420), a third area monitoring device (430), a fourth area monitoring device (440), and a fifth area monitoring device (450); The first area monitoring device (410) and the second area monitoring device (420) are located above the blade (200), the first area monitoring device (410) and the second area monitoring device (420) are arranged on the blade tip bracket (320), the monitoring direction of the first area monitoring device (410) faces the blade root direction of the blade (200), and the monitoring direction of the second area monitoring device (420) faces the blade tip direction of the blade (200); The third area monitoring device (430) and the fourth area monitoring device (440) are located below the blade (200), the third area monitoring device (430) and the fourth area monitoring device (440) are arranged on the blade tip support (320), the monitoring direction of the third area monitoring device (430) faces the blade root direction of the blade (200), and the monitoring direction of the fourth area monitoring device (440) faces the blade tip direction of the blade (200); The fifth area monitoring device (450) is located below the blade (200), the fifth area monitoring device (450) is arranged on the blade root bracket (310) or the trailer (100), and the monitoring direction of the fifth area monitoring device (450) faces the tip direction of the blade (200).
  8. 8. A blade transportation monitoring system, the blade transportation monitoring system comprising: the blade carrier vehicle of any one of claims 1 to 7; -a server (500), the server (500) being in communication with the pressure sensor (710) and being adapted to obtain a pressure exerted by the blade (200) on the cushioning member (700), the pressure being analyzed to monitor the transportation safety of the blade (200).
  9. 9. A method of blade transportation monitoring, characterized by being applied to a server (500) of a blade transportation monitoring system as claimed in claim 8, the method comprising: acquiring the pressure monitored by the pressure sensor; Judging whether the pressure exceeds a first pressure value according to the pressure; A risk event is recorded when the pressure exceeds the first pressure value.
  10. 10. The blade transportation monitoring method of claim 9, wherein the blade transportation vehicle is further provided with a reminder, and the method further comprises: judging whether the pressure exceeds a second pressure value or is lower than a third pressure value, wherein the first pressure value is larger than the third pressure value and smaller than the second pressure value; And when the pressure exceeds the second pressure value or is lower than the third pressure value, controlling the reminding device to remind.
  11. 11. An electronic device comprising a processor and a memory storing program instructions, wherein the processor is configured to perform the blade transportation monitoring method of claim 9 or 10 when the program instructions are run.

Description

Blade transport vehicle, monitoring system, monitoring method and electronic equipment Technical Field The disclosure relates to the technical field of blade transportation monitoring, in particular to a blade transportation vehicle, a monitoring system, a monitoring method and electronic equipment. Background The transportation of fan blades typically employs a telescoping hydraulic flatbed. The transportation mode can ensure that the blade almost only bears the self weight on the vehicle, tensile stress, compressive stress, additional bending moment and torque can not be generated, the transportation process is relatively safe, and the damage to the blade is minimal. However, the fan is often installed on complicated terrains such as mountain areas, and the blade is required to pass through road sections with poor road conditions such as jolts during transportation. When the vehicle runs on the road section, the vehicle plate can deform, the blades can deform to a certain extent, the gap between the vehicle plate and the blades is reduced, the possibility of mutual contact exists, the blades can be damaged, and the quality of the installation is affected. Disclosure of Invention The purpose of the present disclosure is to provide a blade transportation vehicle, monitored control system, monitoring method and electronic equipment, can prevent to take place to damage in the blade transportation, guarantee the installation quality of wind-powered electricity generation blade. According to one aspect of the present disclosure, there is provided a blade transport vehicle comprising a trailer, a blade secured to the trailer by a mounting assembly, a cushioning member disposed between the trailer and the blade, the cushioning member having an elastic deformation characteristic and the cushioning member deforming as a function of a distance between the trailer and the blade, and a pressure sensor configured to monitor a pressure applied by the blade to the cushioning member. The technical scheme that this disclosure provided locates between trailer and the blade with buffer unit to utilize buffer unit elastic deformation to provide the buffering for the elastic deformation that the blade took place in the transportation, effectively prevent that blade and sweep from producing to collide with in the transportation, avoid the blade to produce collision damage at elastic deformation in-process. Meanwhile, the pressure sensor is arranged to monitor the pressure applied by the blade to the buffer component, so that whether the blade generates transportation damage in the transportation process can be judged according to the pressure applied by the blade to the buffer component, and/or early warning intervention can be timely performed on the transportation condition according to the pressure applied by the blade to the buffer component, for example, a driver is reminded to slow down, and the buffer component is reminded to be checked to be damaged, so that damage is prevented in the transportation process of the blade, and the installed quality of the wind power blade is guaranteed. Optionally, the buffer component is an air bag, the pressure sensor is an air pressure sensor, the pressure sensor is connected with the buffer component, and the pressure sensor is used for monitoring air pressure in the buffer component so as to judge the pressure applied by the blade to the buffer component based on the air pressure. Optionally, the blade has a reinforced region, and the cushioning component is supported at the reinforced region of the blade. Optionally, the buffer parts and the pressure sensors are respectively arranged in a one-to-one correspondence manner, and the two buffer parts are respectively supported at different reinforced areas. Optionally, the installation component includes blade root support and apex support, the blade root support with apex support is adjacent respectively the trailer is along length direction's opposite ends, the blade is installed on blade root support with apex support, just the blade root support is adjacent the blade root setting of blade, the apex of blade pass apex support and to the direction of keeping away from the blade root support extends, the buffer unit is located between blade root support and the apex support. Optionally, the blade transportation vehicle is further provided with a photovoltaic panel and an energy storage device, and the energy storage device is respectively and electrically connected with the photovoltaic panel and the pressure sensor. Optionally, the blade transport vehicle further comprises a first area monitoring device, a second area monitoring device, a third area monitoring device, a fourth area monitoring device and a fifth area monitoring device, wherein the first area monitoring device and the second area monitoring device are located above the blade, the first area monitoring device and the second area monitoring device are arranged on the blad