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CN-122010020-A - Carrying and positioning assembly for loading photovoltaic plate frame

CN122010020ACN 122010020 ACN122010020 ACN 122010020ACN-122010020-A

Abstract

The invention discloses a carrying and positioning assembly for loading a photovoltaic plate frame, which comprises a loading device and a support frame main body, wherein the loading device and the support frame main body are fixed at the front part of a loader, the middle part and the left part and the right part of the upper part of a rear wall surface of a loader hinged seat fixing plate of a loader hinged seat at the rear part of the loading device are respectively fixed with a fixed connecting seat, the support frame main body can be fixed on a bottom plate of a truck at a placing position, the support frame main body can uniformly bear force when the photovoltaic plate frame placed on an inclined ground is lifted, and meanwhile, a transverse connecting beam can be adjusted, so that the transverse beam at the bottom of the photovoltaic plate frame on the support frame is matched with a clamping pin positioning assembly on the transverse connecting beam of the support frame main body, the photovoltaic plate frame can be normally placed, the connecting fork feet can be normally pulled away, the clamping positioning assembly can position the photovoltaic plate frame, the left and right movement of a rope is not easy to loosen or break during transportation, and the normal transportation of the photovoltaic plate frame is not easy, and the safety is greatly improved.

Inventors

  • SHAO ZHONGXIANG
  • WANG JIE
  • YE ZHIJIANG
  • HUANG JINGLE
  • XIANG YANG
  • WANG XU
  • ZHAO KANGLE
  • Yu Shouhang
  • Shu Zhilin
  • LIN PING

Assignees

  • 浙江华东工程建设管理有限公司
  • 浙江江能建设有限公司
  • 浙江博旭智光科技有限公司

Dates

Publication Date
20260512
Application Date
20260204

Claims (9)

  1. 1. The carrying and positioning assembly for loading the photovoltaic panel frame comprises a loading device and a support frame main body (100), wherein the loading device and the support frame main body are fixed at the front part of a loader, and the carrying and positioning assembly is characterized in that a fixed connecting seat (12) is fixed at the middle part of the upper part and the left part and the right part of the lower part of a loader hinged seat fixing plate (11) of a loader hinged seat (10) at the rear part of the loading device, the three fixed connecting seats (12) are movably connected with two movable arms (600) and a connecting rod (700) at the front part of the loader through hinge shafts, and the corresponding actions of the loader hinged seat fixing plate (11) are realized through the matching actions of a corresponding movable arm hydraulic cylinder (800) and a turnover hydraulic cylinder (900) connected with the connecting rod of the loader; a plurality of vertical support columns (120) are fixed on the top surface of the upper transverse frame (110) of the support frame main body (100), and the same transverse connecting beam (130) is fixed at the top ends of the vertical support columns (120) in the same row corresponding to the left and right; The left part, the middle part and the right part of the top surface of the part transverse connecting beam (130) are respectively fixed with a clamping pin positioning assembly (200), and the bottom transverse beam (500) of the photovoltaic plate frame is positioned above the corresponding transverse connecting beam (130) and is pressed against the top surface of the upper cover plate (210) of the corresponding clamping pin positioning assembly (200) and is positioned between the upper parts of the corresponding clamping pin shafts (300); the front part of a loader hinged support fixed plate (11) of the loader hinged support (10) is movably connected with a left-right inclined rotating plate (20); the front wall surface of the left-right inclined rotating plate (20) is fixed with a plurality of fixed connecting seats (21), and the middle part of the transverse connecting beam (30) is fixed on all the fixed connecting seats (21); The transverse connecting beam (30) is cylindrical sleeve-shaped, a transverse moving mechanism is arranged on the transverse connecting beam, a main transverse rod (31) of the transverse moving mechanism is positioned in an elongated inner cavity of the transverse connecting beam (30), a fork foot moving connecting seat (32) is fixed at the left part, the middle part and the right part of the front wall surface of the main transverse rod (31), and a connecting frame (321) at the front part of the fork foot moving connecting seat (32) extends out of the front end of a corresponding waist-shaped adjusting through groove (33) formed on the front wall plate of the transverse connecting beam (30); The front portion fixedly connected with vertical connecting plate (34) of link (321) in the front portion of fork foot removal connecting seat (32), through bolt fixedly connected with fork foot fixing base (35) on the front wall of vertical connecting plate (34), be fixed with on fork foot fixing base (35) and connect fork foot (36) that forward level extends, be fixed with a plurality of prong pieces (37) on connecting fork foot (36), the shaping of the top surface middle part of prong piece (37) has last positioning slot (371) of downwardly extending, goes up positioning slot (371) and is corresponding with bottom transverse beam (500) of photovoltaic grillage.
  2. 2. The handling and positioning assembly for loading a photovoltaic panel frame according to claim 1, wherein the latch positioning assembly (200) comprises a rectangular housing (220), a bottom plate of the rectangular housing (220) is fixed on a top surface of a corresponding transverse connection beam (130), an upper cover plate (210) is fixedly connected to the top of the rectangular housing (220) through bolts, the upper cover plate (210) covers the top of the rectangular housing (220), a plurality of latch through holes (2110) are formed on the upper cover plate (210), the latch pin (300) is inserted in the corresponding latch through holes (2110), the bottom of the latch pin extends into the rectangular housing (220), a radial extension part (310) is formed on an outer side wall of the middle of the latch pin (300), the radial extension part (310) is positioned in the rectangular housing (220), the top surface of the radial extension part (310) is pressed against the bottom surface of the upper cover plate (210), the outer diameter of the radial extension part (310) is larger than the inner diameter of the latch through holes (211), the buffer spring (1000) is positioned in the rectangular housing (220), the upper cover plate (300) is inserted in the lower part of the latch pin (300), the bottom surface of the buffer spring (1000) is pressed against the bottom surface of the rectangular housing (1000), and the bottom surface of the buffer spring (1000) is pressed against the bottom surface of the rectangular housing (310).
  3. 3. The photovoltaic panel rack loading handling and positioning assembly according to claim 2, wherein the upper portion of the clamping pin shaft (300) extends out of the top surface of the upper cover plate (210).
  4. 4. The carrying and positioning assembly for loading the photovoltaic panel frame according to claim 1, wherein the fork foot fixing seat (35) is fixedly welded with a connecting fork foot (36), two end fixing plates (38) are inserted into the outer side walls of the transverse connecting beam (30) at the left side and the right side of the left waist-shaped adjusting through groove (33) of the transverse connecting beam (30), the end fixing plates (38) are fixedly welded on the outer side walls of the transverse connecting beam (30), and the front parts of the two end fixing plates (38) are positioned at the left side and the right side of the connecting frame (321); The upper part and the lower part of the rear wall surface of each vertical connecting plate (34) are respectively fixed with a rear connecting seat (341), the middle part of the rear connecting seat (341) is fixed with a linear bearing (342), transverse guide rods (381) are respectively arranged between the upper parts and the lower parts of the front parts of the two end fixing plates (38), the left end and the right end of each transverse guide rod (381) are fixed on the two end fixing plates (38), and the transverse guide rods (381) are inserted into the corresponding linear bearings (342) and matched with the linear bearings (342).
  5. 5. The handling and positioning assembly for loading the photovoltaic panel frame according to claim 1, wherein two fixed connecting seats (21) are fixed on the front wall surface of the middle part of the front wall surface of the left and right inclined rotating plates (20), the fixed connecting seats (21) are fixed on the left and right parts of the front wall surface of the left and right inclined rotating plates (20), and the middle part of the transverse connecting beam (30) is inserted into the middle through holes of the vertical plates at the front parts of all the fixed connecting seats (21) and welded and fixed; The vertical plates of the two fixed connecting seats (21) in the middle are positioned at the left side and the right side of the waist-shaped adjusting through groove (33) in the middle, the upper part and the lower part of the front parts of the vertical plates of the two fixed connecting seats (21) in the middle are respectively provided with a middle transverse rod, the two ends of each middle transverse rod are fixed on the corresponding two vertical plates, and the middle transverse rods are inserted into the corresponding linear bearings (342) of the middle vertical connecting plates (34) and are matched with the linear bearings (342).
  6. 6. The carrying and positioning assembly for loading the photovoltaic panel frame according to claim 1, wherein an outer annular sleeve (14) is fixed on the front wall surface of the hinged support fixing plate (11) of the loader, an inner annular sleeve (22) is fixed on the rear wall surface of the left-right inclined rotating plate (20), the inner annular sleeve (22) is inserted into the outer annular sleeve (14), an outer annular groove is formed in the middle of the inner side wall of the outer annular sleeve (14), an inner annular groove is formed in the middle of the outer side wall of the inner annular sleeve (22), the outer annular groove is matched with the inner annular groove, the inner side walls of the outer annular groove and the inner annular groove are arc-shaped wall surfaces, a plurality of steel balls (1) are arranged between the outer annular groove and the inner annular groove, and the steel balls (1) are clamped between the outer annular groove and the inner annular groove.
  7. 7. The carrying and positioning assembly for loading the photovoltaic panel frame according to claim 1, wherein a first connecting seat (2) is fixed at the lower part of one side wall of the hinged support fixing plate (11) of the loader, a second connecting seat (3) is fixed at the upper part of the corresponding side of the left-right inclined rotating plate (20), the base of the side adjusting mechanism (40) is movably connected to the first connecting seat (2), and the end part of the push rod of the side adjusting mechanism (40) is movably connected to the second connecting seat (3).
  8. 8. The handling and positioning assembly for loading a photovoltaic panel frame according to claim 7, wherein the side adjusting mechanism (40) is an electric push rod or a double-acting hydraulic cylinder, the base of the side adjusting mechanism is movably connected to the first connecting seat (2) through a hinge shaft, and the end part of the push rod is movably connected to the second connecting seat (3) through the hinge shaft.
  9. 9. The carrying and positioning assembly for loading the photovoltaic panel frame according to claim 1, wherein the transverse moving mechanism comprises a speed reducer (50) fixed on the left side wall of the left end plate of the transverse connecting beam (30), an output shaft of the speed reducer (50) is inserted into a middle through hole of the left end plate and extends into the transverse connecting beam (30), a rotary screw (51) is fixedly connected with the speed reducer through a bolt, the section of the outer side wall of the main transverse rod (31) is rectangular, and the rotary screw (51) is in threaded connection with a threaded adjusting hole formed in the middle of the left end of the main transverse rod (31); Two adjacent guide connecting seats (52) are fixed on the inner side walls of the long inner cavities of the transverse connecting beams (30) at the left part, the middle part and the right part of the main transverse rod (31), two ends of the guide connecting seats (52) are fixedly connected on the inner side walls of the transverse connecting beams (30) through bolts, and the main transverse rod (31) is inserted into the middle through hole of the guide connecting seats (52).

Description

Carrying and positioning assembly for loading photovoltaic plate frame Technical Field The invention relates to the technical field of solar photovoltaic panel transportation equipment, in particular to a carrying and positioning assembly for loading a photovoltaic panel frame. Background The photovoltaic board is installed to current large-scale solar photovoltaic grillage on need installing, then, need carry place the truck on transport, current mode is the position department mounting bracket body of placing at the truck, place the photovoltaic grillage on the top surface of the mounting bracket body, then, with the rope ligature, however, because the photovoltaic grillage weight is heavy, its inertia is also big, after its direct placement is on the top surface of the mounting bracket body, because just through the rope ligature, at the in-process such as the truck turns, the photovoltaic grillage can be controlled and removed, its inertia is big, the strength is big, the rope of easy messenger ligature is not hard up or the fracture, the problem that drops appears can appear influencing its transportation effect, the transportation security is poor. Meanwhile, the existing solar photovoltaic panel frame is generally placed on the ground, a fork structure is required to be installed at the front part of a loading vehicle to fork the photovoltaic panel, and then the photovoltaic panel is placed on a mounting frame body on a corresponding truck; However, the existing ground is generally uneven, the placed solar photovoltaic panel frame may be inclined, the fork structure is generally flat, when the fork is lifted, part of the fork is pressed against the bottom surface of the bottom transverse beam of the solar photovoltaic panel frame to lift the solar photovoltaic panel frame, and part of the fork is not pressed against the bottom surface of the bottom transverse beam of the solar photovoltaic panel frame to support the solar photovoltaic panel frame, so that the solar photovoltaic panel frame is not uniform in bearing force, and when the fork is lifted, the bottom surface of the bottom transverse beam of the solar photovoltaic panel frame which is stressed first is stressed too much to deform easily; Meanwhile, when the solar photovoltaic plate frame is lifted, the ground at the position where the truck stops is uneven, so that the top of the mounting frame body is inclined, when the solar photovoltaic plate frame is placed, the bottom surface of part of the transverse connecting beams is pressed against the top surface of the mounting frame body, and part of the transverse connecting beams are not pressed against the top surface of the mounting frame body, the fork is required to be continuously lowered, and when the bottom of the fork is pressed against the bottom plate of the placing position of the truck below the mounting frame body, the fork cannot be pulled away afterwards; In order to ensure that the fork can be pulled away, a gap is needed between the bottom of the fork and the top surface of the bottom plate of the truck at the placement position below the mounting frame body, so that the solar photovoltaic panel frame cannot be placed, namely, part of the transverse connecting beam cannot be pressed against the top surface of the mounting frame body, and in this state, the fork is pulled away, so that the solar photovoltaic panel frame can be taken out together and cannot be placed. Disclosure of Invention The invention aims to overcome the defects of the prior art, and provides a carrying and positioning assembly for loading a photovoltaic panel frame, which can fix a support frame main body on a bottom plate of a placing position of a truck, can uniformly bear force when the photovoltaic panel frame placed on an inclined ground is lifted, and can adjust a transverse connecting beam, so that a bottom transverse beam of the photovoltaic panel frame on the support frame main body is matched with a clamping pin positioning assembly on the transverse connecting beam of the support frame main body, the photovoltaic panel frame can be normally placed, and simultaneously, the connecting fork feet can be normally pulled, the clamping pin positioning assembly can position the photovoltaic panel frame, the photovoltaic panel frame is not easy to move left and right during transportation, a rope line is not easy to loosen or break, normal transportation is ensured, and the safety is greatly improved. The scheme for solving the technical problems is as follows: The carrying and positioning assembly for loading the photovoltaic plate frames comprises a loading device and a support frame main body which are fixed at the front part of a loader, wherein fixed connecting seats are respectively fixed at the middle part of the upper part and the left part and the right part of the lower part of the rear wall surface of a loader hinged seat fixing plate of the rear part of the loading device, the three fixed co