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CN-224198648-U - Multifunctional transfer frame on steel pipe machining line

CN224198648UCN 224198648 UCN224198648 UCN 224198648UCN-224198648-U

Abstract

The utility model discloses a multifunctional transfer frame arranged on one side of a conveying roller way of a steel pipe machining line, which comprises an inclined frame, an input transfer structure and an output transfer structure, wherein the two ends of the inclined frame are oppositely provided with the input transfer structure and the output transfer structure, the output transfer structure comprises a plurality of groups of output transfer modules, an output driving unit and a connecting shaft, the plurality of groups of output transfer modules are arranged at intervals, each output transfer module comprises a fixed frame, a blocking inner arm, a transmission middle arm and a transfer outer arm which are sequentially arranged, the output driving unit is provided with a first synchronous shaft, the blocking inner arm is connected with one end of the transmission middle arm by a continuous shaft, the bottom of the blocking inner arm is hinged with the fixed frame, the top of the blocking inner arm is provided with a blocking part, one ends of the transmission middle arm and the transfer outer arm are respectively arranged on the first synchronous shaft, and the other ends of the transmission middle arm extend towards the blocking inner arm and are provided with U-shaped openings. The utility model has more various functions.

Inventors

  • LIN ZHIFAN

Assignees

  • 钜溢(肇庆)钢管制造有限公司

Dates

Publication Date
20260505
Application Date
20250429

Claims (7)

  1. 1. The multifunctional transfer rack on the steel pipe machining line is arranged on one side of a conveying roller way (10) of the steel pipe machining line and is characterized by comprising an inclined rack (20), an input transfer structure (30) and an output transfer structure (40), wherein the conveying roller way (10) is formed with a pipe conveying position (11) corresponding to the inclined rack (20), the inclined rack (20) is provided with the input transfer structure (30) at one end adjacent to the pipe conveying position (11) and the output transfer structure (40) at one end far away from the pipe conveying position (11); The output transfer structure (40) comprises a plurality of groups of output transfer modules (41), an output driving unit (42) and a coherent shaft (43), wherein the groups of output transfer modules (41) are arranged at intervals on one end of the inclined bench (20) far away from the pipe feeding position (11), each output transfer module (41) comprises a fixed frame (411), a blocking inner arm (412), a transmission middle arm (413) and a transfer outer arm (414), which are sequentially arranged, and the output driving unit (42) is rotatably provided with a first synchronous shaft (421) on the fixed frames (411) of the groups of output transfer modules (41); The device comprises a plurality of groups of blocking inner arms (412) of output transfer modules (41), wherein one ends of the blocking inner arms (412) adjacent to a transmission middle arm (413) are connected through a coherent shaft (43), the bottoms of the blocking inner arms (412) are hinged with a fixed frame (411), blocking parts (401) are formed at the tops of the blocking inner arms (412), one ends of the transmission middle arm (413) and the transfer outer arms (414) are arranged on a first synchronous shaft (421), the other ends of the transmission middle arm (413) extend towards the blocking inner arms (412) and are provided with U-shaped openings (402) for allowing the connection of the cross shafts (43) to penetrate, the other ends of the transfer outer arms (414) extend towards a direction away from the transmission middle arm (413) and are provided with guide transfer edges (403) for enabling an output driving unit (42) to drive the first synchronous shaft (421) to rotate, the transmission middle arm (413) and the transfer outer arms (414) to rise and fall down at one time, the transmission middle arm (413) is pressed against the connection of the first synchronous shaft (421) through the U-shaped openings (402), the other ends of the transmission middle arm (413) extend towards the blocking inner arms (412) and are formed with U-shaped openings (402) for allowing the transfer of the cross shafts (43) to be discharged outside the guide edges (20) one by one.
  2. 2. A multifunctional transfer rack on a steel pipe machining line according to claim 1, wherein the top of the inclined rack (20) is provided with a pipe conveying inclined plane (201) from high to low from one end adjacent to the pipe conveying position (11) to one end far away from the pipe conveying position (11), an input transfer structure (30) is used for conveying waste pipes from the pipe conveying position (11) of a conveying roller way (10) to the pipe conveying inclined plane (201), and the waste pipes are conveyed to an output transfer structure (40) along the pipe conveying inclined plane (201).
  3. 3. The multifunctional transfer rack on the steel pipe machining line according to claim 1, wherein the input transfer structure (30) comprises a plurality of input swing arms (31) and an input driving unit (32), the input driving unit (32) is provided with a second synchronizing shaft (321) below the pipe conveying inclined plane (201), the plurality of input swing arms (31) are arranged at intervals on one end of the inclined rack (20) facing the pipe conveying position (11), one end of each input swing arm (31) is mounted on the second synchronizing shaft (321), the other end of each input swing arm (31) extends towards the pipe conveying position (11) and is provided with a pipe conveying transfer edge (311) which rises and falls relative to the top of the conveying roller way (10) along with the rotation of the input swing arm (31), the input driving unit (32) drives the second synchronizing shaft (321) to lift the input swing arms (31) so that the pipe conveying transfer edge (311) can lift waste pipes from the conveying roller way (10), and the lifted waste pipes fall onto the inclined rack (20) along the input swing arms (31).
  4. 4. The multifunctional transfer rack on the steel pipe machining line according to claim 1, wherein the inclined rack (20) comprises a plurality of unit racks (21) which are arranged at intervals, each unit rack (21) is provided with a plurality of support columns (211), and a table top rod (212) is arranged at the top of the plurality of support columns (211), and the table top rod (212) is in an inclined shape from top to bottom from one end adjacent to the pipe feeding position (11) to one end far away from the pipe feeding position (11).
  5. 5. The multifunctional transfer rack on the steel pipe machining line according to claim 1, wherein the fixing rack (411) is provided with a first bearing seat (51) for the first synchronous shaft (421) to penetrate.
  6. 6. The multifunctional transfer rack on the steel pipe machining line according to claim 1, wherein the second bearing seat (52) is arranged on the fixing rack (411), and a pin shaft (53) connected with an inner ring of the second bearing seat (52) is arranged at the bottom of the inner blocking arm (412) in a penetrating manner.
  7. 7. A multifunctional transfer rack on a steel pipe machining line according to claim 3, wherein brackets (202) are arranged at intervals below the pipe conveying inclined plane (201) at one end of the inclined rack (20) facing to the pipe conveying position (11), and a third bearing seat (54) for penetrating a second synchronizing shaft (321) is arranged on the brackets (202).

Description

Multifunctional transfer frame on steel pipe machining line Technical Field The utility model relates to the technical field of steel pipe machining lines, in particular to a multifunctional transfer frame on a steel pipe machining line. Background The steel pipe is a tubular object made of steel, is commonly used as a pipeline for conveying fluid, such as petroleum, natural gas, water, coal gas and the like, the production of the steel pipe needs a plurality of working procedures, such as cold drawing, cold rolling, hot rolling and the like, in a steel pipe processing line, the steel pipe is generally transferred in each working procedure in a roller way conveying mode, after the appointed working procedure is finished, the steel pipe in the processing process can be detected, so that the quality of the steel pipe meets the requirements, wherein the waste pipe which does not meet the requirements needs to be transferred from the steel pipe processing line, and the waste pipe is prevented from entering the next working procedure. At present, a one-way transfer frame is mainly adopted on a steel pipe processing line for transfer and storage, the one-way transfer frame is provided with a platform frame, one end of the platform frame, which faces to a conveying roller way, is provided with a turning transfer structure, one end of the platform frame, which is far away from the conveying roller way, is provided with a blocking frame, waste pipes in steel pipes which are longitudinally conveyed (conveyed along the axis direction of the steel pipes) on the conveying roller way are transversely transferred to the platform frame through the turning transfer structure, and the waste pipes are temporarily stored by being matched with the blocking frame. However, the unidirectional transfer rack can only transfer and store waste pipes unidirectionally, and has a single function. Disclosure of utility model The utility model aims to provide a multifunctional transfer frame on a steel pipe machining line. In order to achieve the above purpose, the present utility model provides the following technical solutions: The multifunctional transfer frame is arranged on one side of a conveying roller way of the steel pipe machining line and comprises an inclined bench, an input transfer structure and an output transfer structure, wherein a pipe conveying position corresponding to the inclined bench is formed on the conveying roller way, the inclined bench is provided with the input transfer structure at one end adjacent to the pipe conveying position and the output transfer structure at one end far away from the pipe conveying position; The output transfer structure comprises a plurality of groups of output transfer modules, an output driving unit and a connecting shaft, wherein the groups of output transfer modules are arranged at intervals on one end of the inclined bench far away from the pipe feeding position, and each output transfer module comprises a fixed frame, a blocking inner arm, a transmission middle arm and a transfer outer arm which are sequentially arranged; the blocking inner arms of the plurality of groups of output transfer modules are connected with one end of each adjacent transmission middle arm through a connecting through shaft, the bottoms of the blocking inner arms are hinged with the fixing frame, blocking parts are formed at the tops of the blocking inner arms, the transmission middle arms and the transfer outer arms are mounted on the first synchronous shafts through one ends of the blocking inner arms, the other ends of the transmission middle arms extend towards the blocking inner arms and are formed with U-shaped openings for the continuous shafts to penetrate, the other ends of the transfer outer arms extend in the direction away from the transmission middle arms and are formed with guiding transfer edges for the output drive units to drive the first synchronous shafts to rotate, the transmission middle arms and the transfer outer arms are lifted one by one, the transmission middle arms are abutted against the connecting through shafts through the U-shaped openings to drive the blocking inner arms to lift, waste pipes can be blocked on the inclined stand through the blocking parts and discharged through the blocking outer arms, and the discharged waste pipes are outwards transferred through the guiding transfer edges. According to the utility model, a pipe conveying inclined plane is formed at the top of the inclined bench from one end adjacent to the pipe conveying position to one end far away from the pipe conveying position, so that the input transfer structure can convey waste pipes from the pipe conveying position of the conveying roller table to the pipe conveying inclined plane, and the waste pipes are conveyed to the output transfer structure along the pipe conveying inclined plane. The input transfer structure comprises a plurality of input swing arms and an input driving unit, wherein th