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CN-224223008-U - Laser processing production line

CN224223008UCN 224223008 UCN224223008 UCN 224223008UCN-224223008-U

Abstract

The application belongs to the technical field of laser processing and relates to a laser processing production line, which comprises a laser cutting device and a waste cleaning device, wherein the laser cutting device comprises a cutting machine tool and a cutting workbench arranged on the cutting machine tool, at least one part of the waste cleaning device is arranged below the laser cutting device, the waste cleaning device comprises a waste guiding mechanism, a waste conveying mechanism and a waste collecting box, the waste guiding mechanism is arranged between the laser cutting device and the waste conveying mechanism, and the waste collecting box is arranged at the tail end of the conveying direction of the waste conveying mechanism. According to the technical scheme provided by the application, automatic cleaning of the cutting waste can be realized, the labor cost is saved, the production efficiency of laser processing is improved, and the influence of waste accumulation on the operation of a production line is avoided.

Inventors

  • LUO XIAOJIAN
  • ZHANG DUAN
  • LI ZHENGDE
  • XU XIANMENG
  • CAI JIANPING

Assignees

  • 大族激光智能装备(江苏)有限公司

Dates

Publication Date
20260512
Application Date
20250418

Claims (10)

  1. 1. A laser processing line, comprising: the laser cutting device comprises a cutting machine tool and a cutting workbench arranged on the cutting machine tool; The waste material cleaning device, at least a portion of waste material cleaning device set up in laser cutting device's below, waste material cleaning device includes waste material guiding mechanism, waste material conveying mechanism and waste material collecting box, waste material guiding mechanism set up in laser cutting device with between the waste material conveying mechanism, waste material collecting box install in waste material conveying mechanism's direction of delivery's end.
  2. 2. The laser processing line according to claim 1, wherein the guide mechanism includes an overground guide having one end connected to the laser cutting device and the other end located above the underground guide, and an underground guide provided between the overground guide and the scrap conveying mechanism.
  3. 3. The laser machining line of claim 2, wherein the above-ground guide forms a first ramp angle with a horizontal plane, the below-ground guide forms a second ramp angle with the horizontal plane, the first and second ramp angles each being less than 90 °, the first ramp angle being less than the second ramp angle.
  4. 4. A laser machining line according to claim 3, characterized in that the scrap conveying mechanism comprises a first scrap conveying motor and a conveying flight drivingly connected to the first scrap conveying motor, the conveying flight being made of sheet metal.
  5. 5. The laser processing production line according to claim 4, wherein the laser processing production line is provided with a cutting area and an upper blanking area, the cutting machine tool is positioned in the cutting area, and the cutting workbench is arranged on the cutting machine tool in a sliding manner; When the laser processing production line is in a cutting state, the cutting workbench is positioned in the cutting area; When the laser processing production line is in a loading and unloading state, the cutting workbench is positioned in the loading and unloading area; The waste conveying mechanism further comprises a second waste conveying motor and a conveying belt in transmission connection with the second waste conveying motor, wherein the conveying belt is arranged in the feeding and discharging area and located below the cutting workbench entering the feeding and discharging area, and the conveying chain plate is arranged in the cutting area and located below the cutting machine tool.
  6. 6. The laser machining line of claim 5, wherein the underground guide includes a first guide disposed in the cutting region and between the ground guide and the conveyor chain plate, and a second guide disposed in the loading and unloading region and between the ground guide and the conveyor belt.
  7. 7. The laser machining line of claim 5, wherein the scrap transport mechanism further includes a zoned guide disposed within the cutting area, and wherein the zoned guide encloses with the above-ground guide within the cutting area in a top view of the laser machining line to form a scrap collection area.
  8. 8. The laser machining line of claim 7, wherein the scrap transport mechanism further comprises a protective brick disposed over the floor guide and the zone guide.
  9. 9. The laser processing production line according to claim 1, further comprising a loading and unloading device, wherein the loading and unloading device is arranged on one side of the laser cutting device, the loading and unloading device comprises a connecting bracket, a sucker mechanism and a fork mechanism, and the sucker mechanism and the fork mechanism are both arranged on the connecting bracket; when the feeding and discharging device is in a feeding state, the sucking disc mechanism places the plate to be processed on the cutting workbench; When the feeding and discharging device is in a discharging state, the fork mechanism takes out the processed plate from the cutting workbench.
  10. 10. The laser processing line of claim 9, wherein the cutting table comprises a first table and a second table slidably disposed on the first table, the first table and the second table each being provided with at least two support bars, and a distance between two adjacent support bars for a material taking fork of the material-forking mechanism to enter is provided.

Description

Laser processing production line Technical Field The application relates to the technical field of laser processing, in particular to a laser processing production line. Background As a novel thermal cutting processing technology, laser cutting has the advantages of high cutting speed, high production efficiency, small heat affected zone and the like, and has become one of the main processing modes of the plate, and has been widely applied. Various cutting waste materials can be generated after laser cutting, the existing laser processing production line can only enable the cutting waste materials to be piled up on the waste material trolley below the cutting machine, the waste material trolley filled with the waste materials is pulled out manually and regularly, then the waste materials are shoveled into a waste material centralized collection box, a large amount of manual operation is needed in the whole process, the labor cost is high, the production efficiency is reduced, and the problem that the operation of the production line is influenced due to untimely waste material cleaning is also easy to occur. Disclosure of utility model The technical problem to be solved by the embodiment of the application is that the existing laser processing production line is lack of automation in waste cleaning. In order to solve the technical problems, the embodiment of the application provides a laser processing production line, which adopts the following technical scheme: A laser processing production line specifically comprises: the laser cutting device comprises a cutting machine tool and a cutting workbench arranged on the cutting machine tool; The waste material cleaning device, at least a portion of waste material cleaning device set up in laser cutting device's below, waste material cleaning device includes waste material guiding mechanism, waste material conveying mechanism and waste material collecting box, waste material guiding mechanism set up in laser cutting device with between the waste material conveying mechanism, waste material collecting box install in waste material conveying mechanism's direction of delivery's end. Further, the guiding mechanism comprises an overground guiding piece and an underground guiding piece, one end of the overground guiding piece is connected with the laser cutting device, the other end of the overground guiding piece is located above the underground guiding piece, and the underground guiding piece is arranged between the overground guiding piece and the waste conveying mechanism. Further, the above-ground guide forms a first slope angle with the horizontal, the below-ground guide forms a second slope angle with the horizontal, both the first slope angle and the second slope angle are less than 90 °, and the first slope angle is less than the second slope angle. Further, the waste conveying mechanism comprises a first waste conveying motor and a conveying chain plate in transmission connection with the first waste conveying motor, and the conveying chain plate is made of metal plates. Further, the laser processing production line is provided with a cutting area and an upper blanking area, the cutting machine tool is positioned in the cutting area, and the cutting workbench is arranged on the cutting machine tool in a sliding manner; When the laser processing production line is in a cutting state, the cutting workbench is positioned in the cutting area; When the laser processing production line is in a loading and unloading state, the cutting workbench is positioned in the loading and unloading area; The waste conveying mechanism further comprises a second waste conveying motor and a conveying belt in transmission connection with the second waste conveying motor, wherein the conveying belt is arranged in the feeding and discharging area and located below the cutting workbench entering the feeding and discharging area, and the conveying chain plate is arranged in the cutting area and located below the cutting machine tool. Further, the underground guide piece comprises a first guide piece and a second guide piece, wherein the first guide piece is arranged in the cutting area and is positioned between the overground guide piece and the conveying chain plate, and the second guide piece is arranged in the feeding and discharging area and is positioned between the overground guide piece and the conveying belt. Further, the waste conveying mechanism further comprises a partition guide member, the partition guide member is arranged in the cutting area, and in a top view of the laser processing production line, the partition guide member and the overground guide member positioned in the cutting area enclose to form a waste collecting area. Further, the waste conveying mechanism further comprises protective bricks, and the protective bricks are arranged above the ground guide member and the partition guide member. Further, the laser processing production line also comprises a loadi