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CN-224211230-U - A photovoltaic transport ship for on salt pond

CN224211230UCN 224211230 UCN224211230 UCN 224211230UCN-224211230-U

Abstract

The utility model provides a photovoltaic transport ship for a salt pond, which belongs to the technical field of photovoltaics and comprises a transport ship, wherein a loading assembly is arranged on the transport ship and comprises a placement plate, a plurality of isolation frames and a plurality of support columns, the placement plate is symmetrically arranged on the transport ship, the support columns are horizontally and fixedly arranged on the placement plate through mounting blocks, the axes of the support columns are parallel to the width direction of the placement plate, a plurality of rolling rings which are arranged in a rolling manner are linearly sleeved on the support columns along the axis direction, the rolling rings are arranged at intervals and uniformly distributed, the isolation frames are vertically erected on the placement plate along the length direction of the placement plate, a placement groove for vertically placing the photovoltaic plate is formed between the adjacent isolation frames, and the bottoms of the placement grooves are all provided with one rolling ring. When the utility model is used, the loaded photovoltaic panel can be quickly transported to the position in the salt pond where the photovoltaic panel needs to be installed, and the installation efficiency is improved.

Inventors

  • WANG FENG
  • SHI LEI
  • SUN HAIXIANG
  • WANG NING
  • XIE QINGFA
  • GAO YUAN
  • HE ZHONGNAN
  • YAN WENJI
  • SUN FENGPEI
  • ZHENG ZHI
  • LUO KANG
  • YANG WENZHE
  • LAN TIAN
  • LIN YOUZHEN
  • JIANG DONGLIANG

Assignees

  • 中广核新能源(莱州市)有限公司

Dates

Publication Date
20260508
Application Date
20250822

Claims (10)

  1. 1. The utility model provides a photovoltaic transport ship for on salt pond, includes the transport ship, its characterized in that, be provided with loading module on the transport ship, loading module is including placing board, a plurality of isolation frame and a plurality of support column, place the board symmetry and install on the transport ship, and be located the both sides of transport ship, the support column passes through installation piece horizontal fixed mounting and is in place on the board, the axis of support column with place board width direction parallel, and be provided with a plurality of on the length direction of placing the board, a plurality of roll ring that roll set up has been cup jointed along the axis direction linearity on the support column, roll ring interval sets up and evenly distributed, the isolation frame is followed place board length direction is vertical to be erect place on the board, and be provided with a plurality of on the width direction of placing the board, adjacent form between the isolation frame and be used for vertically placing photovoltaic board's standing groove, just the bottom of standing groove all has one roll ring.
  2. 2. The photovoltaic carrier of claim 1, wherein a plurality of positioning beads are symmetrically arranged on the opposite side of the inner wall of the placing groove, the axes of the positioning beads are parallel to the placing plate, the positioning ends of the positioning beads protrude out of the surface of the inner wall of the placing groove, and when the photovoltaic plate enters the placing groove, the positioning ends of the positioning beads are in rolling fit with the surface of the photovoltaic plate.
  3. 3. The photovoltaic carrier for salt pond according to claim 2, wherein the isolation frame comprises a cross beam and a plurality of vertical beams, the vertical beams are vertically arranged on the placing plate and are arranged on the same plane in the length direction of the placing plate, the cross beam is fixedly welded on the top end of the vertical beam, and the positioning beads are horizontally arranged on the cross beam or the vertical beam.
  4. 4. A photovoltaic carrier for salt pool according to claim 3, wherein the cross beam is provided with a plurality of mounting holes on the same horizontal plane, the vertical beam is provided with a plurality of second mounting holes right below the mounting holes, and the positioning beads are fixedly mounted in the mounting holes or the second mounting holes.
  5. 5. A photovoltaic transport ship for a salt pond according to claim 3, wherein the cross beam is provided with limit grooves, the limit grooves are respectively arranged at two ends of the cross beam, limit columns are arranged in a sliding insertion fit manner in the limit grooves, the limit columns penetrate through the limit grooves on all the isolation frames, one end of each limit column, far away from the transport ship, is provided with a limit block, one end of each limit column, close to the transport ship, is provided with threads, and locking nuts are screwed through the threads.
  6. 6. A photovoltaic carrier for use in a salt pond according to claim 5, wherein the restraining post is provided with a buffer sleeve.
  7. 7. A photovoltaic transport ship for salt pool according to claim 1, wherein the transport ship is symmetrically provided with mounting grooves, the mounting grooves are provided with hull stabilizing mechanisms, the hull stabilizing mechanisms comprise hydraulic columns and supporting legs, the hydraulic columns are vertically arranged in the mounting grooves, the action ends of the hydraulic columns are downward, the supporting legs are fixedly arranged at the lower ends of the action ends of the hydraulic columns, and the lower ends of the supporting legs are provided with supporting legs extending to the periphery.
  8. 8. A photovoltaic carrier for salt pool according to claim 7, wherein the bottom of the supporting foot is further provided with a truncated cone, the cone angle of which is downwardly directed.
  9. 9. A photovoltaic carrier for use in a salt pond according to claim 1, wherein a bracket is provided between the carrier and the placement plate.
  10. 10. A photovoltaic carrier for salt pool according to claim 1, wherein the rolling ring is externally sleeved with a rubber sleeve pad.

Description

A photovoltaic transport ship for on salt pond Technical Field The utility model belongs to the technical field of photovoltaics, and particularly relates to a photovoltaic transport ship for a salt pond. Background Along with the promotion of the 'double carbon' target, the construction scale of the photovoltaic power station is rapidly enlarged, but the traditional ground power station is limited by the problems of land resource shortage, land cost rising and the like, and particularly in coastal and salt lake areas, a large number of salt ponds and salt fields are always regarded as 'forbidden areas' for photovoltaic development due to severe conditions such as high salt mist, strong corrosion, low foundation bearing capacity, frequent water level change and the like. The salt light complementation mode is a mode of 'one-place multi-purpose' which deeply fuses solar photovoltaic power generation with the traditional sea salt industry. The solar energy water-saving brine-drying pond is characterized in that a photovoltaic module is erected above a brine field (brine-drying pond), brine is produced by water power generation and water surface evaporation, aquaculture such as fish and shrimp and the like is developed under water, and three-in-one salt-light-fish is realized, and the effects are superimposed. In the mode of salt-light complementation, because of the special environments of high salt fog, high corrosion and weak foundation bearing capacity of a salt pond, a salt pan and the like, the surface of the salt pond has no hardened road, large hoisting machinery cannot enter, the prior art mostly adopts manual transportation or simple pontoon assembly, and the efficiency is low and the assembly collision is easy to cause. Therefore, to solve the above problems, an apparatus for transporting photovoltaic panels in a salt pond is required. Disclosure of utility model In view of the above-mentioned drawbacks of the prior art, the present utility model aims to provide a photovoltaic transport ship for a salt pond, which is used for solving the technical problems of low transport efficiency, high labor intensity of workers and easy mutual collision in the prior art. To achieve the above and other related objects, the present utility model provides a photovoltaic transport ship for a salt pond, comprising a transport ship, wherein a loading assembly is provided on the transport ship, the loading assembly comprises a placement plate, a plurality of isolation frames and a plurality of support columns, the placement plate is symmetrically installed on the transport ship and positioned at two sides of the transport ship, the support columns are horizontally and fixedly installed on the placement plate through installation blocks, the axes of the support columns are parallel to the width direction of the placement plate, a plurality of rolling rings are arranged on the placement plate in the length direction of the placement plate, the rolling rings are linearly sleeved on the support columns in the axis direction, the rolling rings are arranged at intervals and uniformly distributed, the isolation frames are vertically erected on the placement plate in the length direction of the placement plate, a plurality of placement grooves for vertically placing the photovoltaic plate are formed between the adjacent isolation frames, and one rolling ring is arranged at the bottom of each placement groove. Like this, through the isolation frame, can independently place the photovoltaic board, and under the effect of rolling ring, can be convenient for the photovoltaic board pack into the standing groove, the standing groove of independent setting has reduced the collision between the photovoltaic board, the subsequent hoist and mount to the photovoltaic board of being convenient for. Optionally, the opposite one side of inner wall of standing groove symmetry is provided with a plurality of locating beads, the axis of locating bead with place the board is parallel, just the location end protrusion of locating bead in the surface of the inner wall of standing groove, when the photovoltaic board gets into the standing groove, the location end of locating bead with the surface rolling fit of photovoltaic board. Through the location pearl, can be convenient for the photovoltaic board keep vertical get into the standing groove in, can also reduce the collision of photovoltaic board and isolation frame to avoid the damage of photovoltaic board. Optionally, the isolation frame includes crossbeam and a plurality of vertical beam, and is a plurality of vertical beam is vertical to be installed place on the board, and place on the length direction of board coplanar arrangement sets up, the crossbeam fixed welding is in vertical beam top, the location pearl level is installed the crossbeam or on the vertical beam. Optionally, the cross beam is provided with a plurality of mounting holes on same horizontal plane, the vertical beam is p