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CN-224226604-U - Electric carrying tool for heavy equipment

CN224226604UCN 224226604 UCN224226604 UCN 224226604UCN-224226604-U

Abstract

The utility model discloses an electric carrying tool for heavy equipment, which comprises an electric forklift, a portal lifting mechanism and a fork mechanism, wherein the electric forklift is provided with the portal lifting mechanism for lifting the heavy equipment forked by the fork mechanism in the Y-axis direction, the portal lifting mechanism is provided with the fork mechanism for forking the heavy equipment, and the fork mechanism is provided with two fork plates and a fork adjusting assembly for adjusting the distance between the two fork plates. According to the utility model, accurate forking of heavy equipment with different width specifications can be realized by adjusting the distance between the two fork plates, the application range of the equipment is obviously enlarged, the carrying risk caused by mismatching of the distance between the two fork plates and the size of the equipment is reduced, the carrying efficiency and the safety of the heavy equipment are effectively improved, and the shifting or dumping risk of the heavy equipment caused by vibration can be reduced.

Inventors

  • LI YAJIN
  • YIN XUDONG

Assignees

  • 无锡博勒铭科技有限公司

Dates

Publication Date
20260512
Application Date
20250626

Claims (5)

  1. 1. The electric carrying tool for the heavy equipment comprises an electric forklift (100), a portal lifting mechanism (200) and a fork mechanism (300), and is characterized in that the electric forklift (100) is provided with the portal lifting mechanism (200) for lifting the heavy equipment forked by the fork mechanism (300) in the Y-axis direction, and the portal lifting mechanism (200) is provided with the fork mechanism (300) for forking the heavy equipment; The fork mechanism (300) is provided with two fork plates (330) and a fork adjusting assembly (320) for adjusting the distance between the two fork plates (330); The fork adjusting assembly (320) is provided with a buffering and damping structure (328) for buffering and damping heavy equipment which is forked by the fork plate (330) in the Y-axis direction.
  2. 2. The electric power tool for heavy equipment of claim 1, wherein the fork adjusting assembly (320) is provided with a sliding plate (325), sliding blocks (326) are arranged on two sides of the sliding plate (325), the sliding plate (325) is in sliding connection with the sliding blocks (326), the top end of the sliding block (326) is movably connected with one end of a first connecting plate (323) through a movable pin shaft, and the other end of the first connecting plate (323) is movably connected with a lifting block (322) through a movable pin shaft.
  3. 3. The electric power tool for heavy equipment according to claim 2, wherein the lifting block (322) is mounted at a telescopic end of the electric push rod (321), the electric push rod (321) is mounted at a top end of an outer wall of one side of the fork frame (310), the telescopic end of the electric push rod (321) penetrates through the top end of the fork frame (310), and the tops and bottoms of two ends of the sliding plate (325) are connected with the second connecting plate (324) through the buffering and damping structures (328).
  4. 4. The electric power tool for heavy equipment according to claim 3, wherein one end of the second connecting plate (324) is mounted on an outer wall of one side of the fork frame (310), the fork frame (310) is disposed on the gantry lifting mechanism (200), protruding blocks (3251) are disposed at front and rear ends of an outer wall of one side of the sliding plate (325), through holes are formed in end walls of the protruding blocks (3251), guide columns (3241) are disposed in the through holes, and an outer diameter of the guide columns (3241) is equal to an inner diameter of the through holes.
  5. 5. The electric power tool for heavy equipment of claim 4, wherein the two ends of the guide post (3241) are arranged on the second connecting plate (324), the guide post (3241) is in threaded fit connection with the second connecting plate (324), a spring (327) is sleeved outside the outer wall of the guide post (3241), and the spring (327) is arranged between the second connecting plate (324) and the protruding block (3251).

Description

Electric carrying tool for heavy equipment Technical Field The utility model relates to the technical field of heavy equipment handling equipment, in particular to an electric handling tool for heavy equipment. Background In the field of modern industrial production and logistics transportation, the transportation of heavy equipment is a key link for guaranteeing production continuity and logistics efficiency, and an electric forklift is widely applied as a common heavy equipment transportation tool by virtue of the advantages of flexible operation, strong power and the like. Through retrieval, patent publication number CN212425331U discloses an electric fork-lift truck and an anti-rollover device of the electric fork-lift truck, and the anti-rollover device comprises an electric fork-lift truck body, a storage bin and a transmission bin, wherein the storage bin is arranged inside the electric fork-lift truck body, the transmission bin is arranged inside the electric fork-lift truck body, a bracket is fixedly connected inside the transmission bin, a motor is fixedly connected inside the bracket, an output shaft of the motor is fixedly connected with a threaded column, and the other end of the threaded column is fixedly connected with a first rotating shaft; according to the utility model, the wheel group and the buffer assembly are arranged, so that when the electric forklift body turns over, the electric forklift body is supported by the wheel group and the buffer assembly, and the phenomenon that the electric forklift body turns over in the steering process is effectively avoided. When the existing electric forklift carries heavy equipment, because the specification and size differences of the heavy equipment are large, the pallet spacing of the traditional electric forklift is usually fixed, or only has limited adjusting functions, and is difficult to adapt to heavy equipment with different widths, when the width of the carrying equipment is not matched with the pallet spacing, the gravity center is offset in the equipment carrying process easily, the dumping risk is increased, damage to the surface of the equipment is possibly caused due to uneven local stress, the performance and the service life of the equipment are influenced, and therefore the electric carrying tool for the heavy equipment is designed. Disclosure of utility model Aiming at the defects or shortcomings of the electric carrying tool for the heavy equipment, the utility model aims to provide the electric carrying tool for the heavy equipment, which can accurately fork the heavy equipment with different width specifications by adjusting the distance between two fork plates and simultaneously can reduce the shifting or tilting risk of the heavy equipment caused by vibration. In order to achieve the aim of the utility model, the utility model adopts the following technical scheme: The utility model provides an electric carrying tool for heavy equipment, which comprises an electric forklift, a portal lifting mechanism and a fork mechanism, wherein the electric forklift is provided with the portal lifting mechanism for lifting the heavy equipment forked by the fork mechanism in the Y-axis direction, and the portal lifting mechanism is provided with the fork mechanism for forking the heavy equipment; the fork mechanism is provided with two fork plates and a fork adjusting assembly for adjusting the distance between the two fork plates; And the fork adjusting assembly is provided with a buffering and damping structure for buffering and damping heavy equipment which is forked by the fork plate in the Y-axis direction. Preferably, the fork adjusting assembly is provided with a sliding plate, sliding blocks are arranged on two sides of the sliding plate, the sliding plate is in sliding connection with the sliding blocks, the top end of the sliding block is movably connected with one end of the first connecting plate through a movable pin shaft, and the other end of the first connecting plate is movably connected with the lifting block through a movable pin shaft. Preferably, the lifting block is arranged at the telescopic end of the electric push rod, the electric push rod is arranged at the top end of one side outer wall of the fork frame, the telescopic end of the electric push rod penetrates through the top end of the fork frame, and the top and the bottom of two ends of the sliding plate are connected with the second connecting plate through the buffering and damping structure. Preferably, one end of the second connecting plate is installed on one side outer wall of the fork frame, the fork frame is arranged on the portal lifting mechanism, protruding blocks are arranged at the front end and the rear end of one side outer wall of the sliding plate, through holes are formed in the end walls of the protruding blocks, guide columns are arranged in the through holes, and the outer diameter of the guide columns is equal to the inner diameter of th