Search

CN-224215062-U - Marine wind power routing sweep equipment frock

CN224215062UCN 224215062 UCN224215062 UCN 224215062UCN-224215062-U

Abstract

The utility model relates to the technical field of offshore scanning, in particular to a offshore wind power routing scanning equipment tool which comprises a lifting pipe, wherein a rotating shaft is arranged at the left end of the lifting pipe, a supporting plate is arranged at the left end of the rotating shaft, a dynamic inclination sensor is fixedly connected to the right end of the supporting plate, scanning equipment is arranged at the left end of the supporting plate, a connecting ring is connected to the outer part of the lifting pipe in a sliding manner, a clamping rail is arranged at the bottom of the connecting ring, two clamping screws are arranged in the clamping rail, a clamping block is arranged at the top of each clamping screw, a supporting rail is further arranged at the bottom of the connecting ring, and a supporting block is connected to the inner part of the supporting rail in a sliding manner.

Inventors

  • WANG XINRONG
  • MO XIANGMING
  • LIU SHAOJIE
  • WANG JUNJIE
  • Gong Kuangmin
  • LI FUJIAN
  • CHEN JING
  • Cheng Shuangbao
  • GUO YIBO
  • LIN XIANQING
  • LIN ZIHUANG
  • XU GANGXIANG

Assignees

  • 长江三峡集团福建能源投资有限公司
  • 平潭海峡发电有限公司
  • 三峡新能源海上风电运维江苏有限公司
  • 青岛华庆海洋科技有限公司

Dates

Publication Date
20260508
Application Date
20250624

Claims (5)

  1. 1. The marine wind power routing sweeping equipment tool is characterized by comprising a lifting pipe (1), wherein a rotating shaft (7) is arranged at the left end of the lifting pipe (1), a supporting plate (705) is arranged at the left end of the rotating shaft (7), a dynamic inclination sensor (707) is fixedly connected to the right end of the supporting plate (705), two adapting rods (801) are rotatably connected to the left end of the supporting plate (705), a connecting ring (4) is arranged on the inner side of each adapting rod (801), clamping sliding blocks (806) are slidably connected to the inner portion of each adapting block (803), clamping rods (804) are arranged at the outer end of each clamping block (806), clamping rods (807) are fixedly arranged at the left end of each clamping block, clamping nuts (808) are connected to the left end of each clamping rod (807) in a meshed mode, clamping pieces (809) are connected to the front end and the rear end of each clamping rod (807), sweeping equipment (8) is arranged at the left end of the supporting plate (705), a connecting ring (4) is connected to the outer portion of the lifting pipe (1), two clamping blocks (504) are arranged on the inner portion of the connecting ring (4), two clamping blocks (501) are connected to the inner portion of each clamping block (501), the bottom of the connecting ring (4) is also provided with a supporting rail (603), and a supporting block (602) is connected inside the supporting rail (603) in a sliding way.
  2. 2. The offshore wind power routing and sweeping equipment tool disclosed in claim 1 is characterized in that flange plates (101) are fixed at the left end and the right end of the lifting pipe (1), a connecting disc (704) is connected to the left side of the flange plates (101) through bolt fastening, a controller (102) is fixed at the right end of the connecting disc (704), a reversing motor (104) is fixed at the rear end of the controller (102), a power supply (103) is fixed at the rear end of the reversing motor (104), and the left end of the reversing motor (104) is rotatably connected with the rotating shaft (7).
  3. 3. The offshore wind power routing sweeping equipment tool according to claim 2, wherein a positioning head (701) is fixed at the left end of the rotating shaft (7), an adjusting motor (702) is fixed at the bottom of the positioning head (701), an adjusting block (703) is rotatably connected to the top of the adjusting motor (702), the left end of the adjusting block (703) is fixedly connected with the supporting plate (705), a camera (706) is fixed at the top of the supporting plate (705), a measuring groove (3) is fixed outside the lifting tube (1), and a positioning rail (2) is also fixed outside the lifting tube (1).
  4. 4. The offshore wind routing and sweeping equipment tool according to claim 3, wherein the left end of the supporting plate (705) is connected with the adapting rods (801) in a meshed mode through connecting blocks, adapting bearings (802) are fixed inside each adapting rod (801), the outer ring of each adapting bearing (802) is fixedly connected with the adapting block (803) at one end of the adapting rod, each clamping rod (804) is connected with the adapting block (803) at one end of the clamping rod in a meshed mode, clamping bearings (805) are fixed inside each clamping rod (804), and the outer ring of each clamping bearing (805) is fixedly connected with the clamping sliding block (806) at the inner side of the clamping rod.
  5. 5. The offshore wind routing and sweeping equipment tool according to claim 3, wherein a group of positioning bolts (401) are connected inside each positioning rail (2) in a sliding mode, each positioning bolt (401) is connected with the connecting ring (4) in a meshed mode, a supporting rod (402) is fixed at the bottom of the connecting ring (4), a positioning rod (403) is fixed at the bottom of the supporting rod (402), the left end of the positioning rod (403) is fixedly connected with the clamping rail (5), a connecting plate (6) is fixed at the left end of the top of the supporting rod (402), the connecting plate (6) is fixedly connected with the supporting rail (603), a locking plate (601) is connected onto the supporting rail (603) in a sliding mode, two clamping blocks (502) are connected onto the clamping rail (5) in a sliding mode, each clamping block (502) is connected with one end of the clamping screw (501) in a meshed mode, each clamping screw (501) is connected with the top of the clamping ring (503) in a sliding mode, and the top of the clamping screw (503) is fixedly connected with the top positioning block (503).

Description

Marine wind power routing sweep equipment frock Technical Field The utility model belongs to the technical field of offshore sweep testing, and particularly relates to an offshore wind power routing sweep testing equipment tool. Background The submarine cable is used as a core carrier for electric energy transmission of the offshore wind farm, and the route planning needs to avoid submarine barriers, bad geological areas and ecologically sensitive areas, so that high-precision and high-efficiency route sweep is a key link of current period investigation. However, most of the existing sweeping equipment needs manual cooperation when in use, so that the sweeping efficiency is low, the sweeping accuracy is low, and meanwhile, the existing sweeping equipment can be only fixed on a ship body when in use, so that the whole device can sweep at one depth, and the sweeping effect is poor. Disclosure of utility model Aiming at the situation, in order to overcome the defects of the prior art, the utility model provides the offshore wind power routing sweep equipment tool, which effectively solves the problems in the background art. The offshore wind power routing sweeping equipment tool comprises a lifting pipe, a rotating shaft is arranged at the left end of the lifting pipe, a supporting plate is arranged at the left end of the rotating shaft, a dynamic inclination sensor is fixedly connected to the right end of the supporting plate, two adapting rods are rotatably connected to the left end of the supporting plate, an adapting block is arranged on the inner side of each adapting rod, a clamping slide block is slidably connected to the inner side of each adapting block, a clamping rod is arranged at the outer end of each clamping slide block, a clamping rod is fixed to the left end of each clamping slide block, a clamping nut is engaged with each clamping rod, a clamping piece is slidably connected to the outer parts of the front clamping rod and the rear clamping rod, sweeping equipment is arranged at the left end of the supporting plate, a connecting ring is slidably connected to the outer part of the lifting pipe, a clamping rail is arranged at the bottom of the connecting ring, two clamping screws are arranged in the clamping rail, a positioning block is arranged at the top of each clamping screw, a clamping block is slidably connected to the inner side of each positioning block, a supporting rail is further arranged at the bottom of the connecting ring, and a supporting rail is slidably connected to the inner supporting rail. Preferably, flange plates are fixed at the left end and the right end of the lifting tube, a connecting disc is fixedly connected to the left side of the flange plate through bolts, a controller is fixed to the right end of the connecting disc, a reversing motor is fixed to the rear end of the controller, a power supply source is fixed to the rear end of the reversing motor, and the left end of the reversing motor is rotationally connected with the rotating shaft. Preferably, the left end of the rotating shaft is fixedly provided with a positioning head, the bottom of the positioning head is fixedly provided with an adjusting motor, the top of the adjusting motor is rotationally connected with an adjusting block, the left end of the adjusting block is fixedly connected with the supporting plate, the top of the supporting plate is fixedly provided with a camera, the outer part of the lifting tube is fixedly provided with a measuring groove, and the outer part of the lifting tube is fixedly provided with a positioning rail. Preferably, the left end of the supporting plate is in meshed connection with the adapting rods through connecting blocks, adapting bearings are fixed in the adapting rods, the outer rings of the adapting bearings are fixedly connected with the adapting blocks at one ends of the adapting bearings, the clamping rods are in meshed connection with the adapting blocks at one ends of the clamping rods, clamping bearings are fixed on the inner sides of the clamping rods, and the outer rings of the clamping bearings are fixedly connected with the clamping sliding blocks on the inner sides of the clamping rods. Preferably, each positioning rail is internally and slidably connected with a group of positioning bolts, each positioning bolt is in meshed connection with the connecting ring, a supporting rod is fixed at the bottom of the connecting ring, a positioning rod is fixed at the bottom of the supporting rod, the left end of the positioning rod is fixedly connected with the clamping rail, a connecting plate is fixed at the left end of the top of the supporting rod, the connecting plate is fixedly connected with the supporting rail, a locking plate is slidably connected onto the supporting rail, the locking plate is tightly attached to the supporting block, two clamping blocks are slidably connected onto the clamping rail, each clamping block is in meshed connection with one end