CN-224211855-U - Coiled material erector

Abstract

The utility model relates to a coiled material erecting machine which comprises a frame, a bearing assembly, a turnover driving piece and a fixed clamp assembly, wherein the bearing assembly is rotatably connected to the frame, the rotation axis of the bearing assembly is horizontal and perpendicular to the length direction of the bearing assembly, the turnover driving piece is used for driving the bearing assembly to rotate to a horizontal position and a vertical position around the rotation axis of the bearing assembly, and the fixed clamp assembly comprises a first clamping plate assembly and a second clamping plate assembly which are respectively arranged at two ends of the bearing assembly, and is used for clamping two ends of a coiled material when the bearing assembly turns over. According to the utility model, the turnover driving piece drives the bearing assembly to rotate from the horizontal position to the vertical position, so that the coiled material horizontally placed on the bearing assembly is turned to the vertical state, the stability of the coiled material in the turning process is ensured by the fixed clamping assembly, and the labor is effectively saved and the safety is ensured.

Inventors

• LI LING
• ZHOU GUIFENG

Assignees

• 苏州斯塔克工业设备有限公司

Dates

Publication Date

20260508

Application Date

20250430

Claims (8)

1. 1.A coil erecting machine, comprising: A frame; The bearing assembly is rotationally connected to the rack, and the rotation axis of the bearing assembly is horizontal and perpendicular to the length direction of the bearing assembly; The overturning driving piece is used for driving the bearing assembly to rotate to a horizontal position and a vertical position around the axis of the rotating shaft of the bearing assembly; The fixed clamp assembly comprises a first clamping plate assembly and a second clamping plate assembly which are respectively arranged at two ends of the bearing assembly, and the fixed clamp assembly is used for clamping two ends of a coiled material when the bearing assembly is overturned.
2. 2. A coil erecting machine according to claim 1, wherein one end of said top of said frame is provided with a rotatable seat rotatably connected to one end of said carrier assembly, and the other end of said top of said frame is provided with a support seat for supporting said carrier assembly in a horizontal position.
3. 3. A roll erecting machine according to claim 2, wherein said support base is provided with a resilient cushion pad on top thereof for abutting said load bearing assembly.
4. 4. A coil erecting machine according to claim 1, wherein said carrier assembly has a V-shaped carrier surface on top thereof and a baffle on top of said carrier assembly on a side facing away from the incoming material.
5. 5. A web erecting machine according to claim 1, wherein said first gripper assembly comprises a first gripper body in sliding connection with said carrier assembly, a first drive member for driving said first gripper body to slide in said web axis direction, and said second gripper assembly comprises a second gripper body in sliding connection with said carrier assembly, a second drive member for driving said second gripper body to slide in said web axis direction.
6. 6. A web erecting machine according to claim 5, wherein said first drive member and said second drive member are air cylinders.
7. 7. A coil erecting machine according to any one of claims 1-6, wherein said turning drive comprises a drive motor disposed on said frame, a speed reducer, a driven gear fixedly connected to said bearing assembly shaft, a drive gear connected to said speed reducer output shaft, said drive gear engaging said driven gear, and a main shaft of said drive motor connected to said input shaft of said speed reducer.
8. 8. The coil erecting machine according to claim 7, wherein the number of the driven gears is two, the driven gears are symmetrically arranged along the central axis of the bearing assembly, the speed reducer is a double-shaft output speed reducer, and driving gears meshed with the driven gears are respectively arranged on two conveying shafts of the speed reducer.

Description

Coiled material erector Technical Field The utility model relates to coiled material stacking equipment, in particular to a coiled material erecting machine. Background The coiled material is formed by winding a strip-shaped material, is generally in a horizontal state when in production and use, is generally placed in a vertical mode for improving stability when being carried and stored, and therefore, is generally required to be turned into a vertical state after being discharged from a production line. The manual overturning is adopted in the transmission overturning mode, but the labor intensity is high, and whether the coiled material is safe or not is easy to manufacture when the coiled material is overturned. Disclosure of utility model Aiming at the defects of the prior art, the utility model aims to provide a coiled material erecting machine. The technical scheme includes that the coiled material erecting machine comprises a machine frame, a bearing assembly, a turnover driving piece and a fixed clamp assembly, wherein the bearing assembly is rotatably connected to the machine frame, the rotation axis of the bearing assembly is horizontal and perpendicular to the length direction of the bearing assembly, the turnover driving piece is used for driving the bearing assembly to rotate to a horizontal position and a vertical position around the rotation axis of the bearing assembly, the fixed clamp assembly comprises a first clamping plate assembly and a second clamping plate assembly which are respectively arranged at two ends of the bearing assembly, and the fixed clamp assembly is used for clamping two ends of coiled materials when the bearing assembly turns over. As a further improvement of the design, one end of the top of the frame is provided with a rotating seat which is rotationally connected with one end of the bearing assembly, and the other end of the top of the frame is provided with a supporting seat which is used for supporting the bearing assembly which is horizontally placed. As a further improvement of the design, the top of the supporting seat is provided with an elastic buffer pad which abuts against the bearing assembly. As a further improvement of the design, the top of the bearing component is provided with a V-shaped bearing surface, and the top of one side of the bearing component, which is away from the incoming material, is provided with a baffle. As a further improvement of the design, the first clamping plate assembly comprises a first clamping plate body which is in sliding connection with the bearing assembly and a first driving piece which drives the first clamping plate body to slide along the axis direction of the coiled material, and the second clamping plate assembly comprises a second clamping plate body which is in sliding connection with the bearing assembly and a second driving piece which drives the second clamping plate body to slide along the axis direction of the coiled material. As a further improvement of the design, the first driving member and the second driving member are both cylinders. As a further improvement of the design, the overturning driving piece comprises a driving motor, a speed reducer, a driven gear fixedly connected with a rotating shaft of the bearing assembly and a driving gear connected with an output shaft of the speed reducer, wherein the driving gear is meshed with the driven gear, and a main shaft of the driving motor is connected with an input shaft of the speed reducer. As a further improvement of the design, the number of the driven gears is two, the driven gears are symmetrically arranged along the central axis of the bearing assembly, the speed reducer is a double-shaft output speed reducer, and driving gears meshed with the driven gears are respectively arranged on two conveying shafts of the speed reducer. The turnover driving piece drives the bearing assembly to rotate from the horizontal position to the vertical position, so that the coiled material horizontally placed on the bearing assembly is turned to the vertical state, the stability of the coiled material in the turning process is ensured through the fixed clamping assembly, and the turnover driving piece not only effectively saves manpower, but also can ensure safety. Drawings The utility model will be further described with reference to the drawings and examples. Fig. 1 is a schematic perspective view of the present utility model. Fig. 2 is an end view schematic of the present utility model. FIG. 3 is a schematic diagram of the operation of the present utility model in a receiving state. In the drawings, 1. The frame, 2. The flip drive, 21. The drive motor, 22. The speed reducer, 23. The drive gear, 24. The driven gear, 3. The first cleat assembly, 31. The first cleat body, 32. The first drive, 4. The second cleat assembly, 41. The second drive, 42. The second cleat body, 5. The support base, 6. The resilient cushion, 7. The baffle, 8.V. The load bearing surface, 9.