Search

CN-224227987-U - Workshop for robot cutting and welding

CN224227987UCN 224227987 UCN224227987 UCN 224227987UCN-224227987-U

Abstract

The utility model provides a robot cutting, welding are with workshop, belong to robot processing technology field, including skeleton and backplate, it has two to open the door to articulate on the skeleton, the skeleton passes through the bolt and can dismantle with the backplate and be connected, the skeleton includes a plurality of section bar components, can dismantle through the connecting plate subassembly between the adjacent section bar components and be connected, the connecting plate subassembly includes first connecting plate and second connecting plate, first connecting hole that is used for installing the bolt has been seted up on the first connecting plate, second connecting hole that is used for with bolt threaded connection has been seted up on the second connecting plate, first connecting plate, second connecting plate respectively fixed mounting is on two section bar components that are connected, the dismantlement of mode through bolted connection between backplate and the skeleton and each section bar component of skeleton is connected, the maintenance replacement of each component of the workshop of being convenient for has effectively reduced the maintenance cost, and the whole division of need not to cut the components of the workshop, the split efficiency and the degree of simplicity of workshop have been improved, the dismouting of the workshop is more convenient for.

Inventors

  • WU GUOLONG
  • LI YUNXI
  • ZHANG JING
  • DAI JIWEI
  • WANG XINYU

Assignees

  • 山东艾西特智能科技有限公司

Dates

Publication Date
20260512
Application Date
20250523

Claims (10)

  1. 1. The working room for robot cutting and welding comprises a framework (1) and an outer guard plate (2), wherein a double door (5) is hinged on the framework (1), and the working room is characterized in that the framework (1) is detachably connected with the outer guard plate (2) through bolts, the framework (1) comprises a plurality of section bar components, and adjacent section bar components are detachably connected through a connecting plate assembly; The connecting plate assembly comprises a first connecting plate (15) and a second connecting plate (16), a first connecting hole (17) for installing a bolt is formed in the first connecting plate (15), a second connecting hole (18) for being in threaded connection with the bolt is formed in the second connecting plate (16), and the first connecting plate (15) and the second connecting plate (16) are respectively and fixedly installed on two connected profile members.
  2. 2. The robot cutting and welding workshop according to claim 1, wherein the profile component comprises a first side frame (8), a second side frame (9), a middle frame (10), upright posts (12), a cross beam (13) and transverse ribs (14), the front and back surfaces of the framework (1) respectively comprise the first side frame (8), the second side frame (9) and the middle frame (10), the first side frame (8) and the second side frame (9) are oppositely arranged on two sides of the middle frame (10), the two first side frames (8) and the two second side frames (9) are connected through a plurality of transverse ribs (14), the transverse ribs (14) on the same side are connected through the upright posts (12), and the upright posts (12) on two sides are connected through the cross beam (13).
  3. 3. The robot cutting and welding cell according to claim 2, wherein the first side frame (8), the second side frame (9) and the intermediate frame (10) are each of a frame structure.
  4. 4. The robot cutting and welding cell according to claim 2, wherein a reinforcing plate (23) is fixedly installed between the upright (12) and the cross beam (13).
  5. 5. The robot cutting and welding workshop according to claim 1, wherein a plurality of second connecting pieces (19) are fixedly installed on the framework (1), a plurality of third connecting pieces (21) are fixedly arranged on the inner wall of the outer guard plate (2), the second connecting pieces (19) are detachably connected with the third connecting pieces (21) through bolts, third connecting holes (20) are formed in the second connecting pieces (19), and fourth connecting holes (22) for being in threaded connection with the bolts are formed in the third connecting pieces (21).
  6. 6. The workshop for robot cutting and welding according to claim 1, wherein the front and the back of the framework (1) are provided with double doors (5), the double doors (5) are provided with observation windows (6), the outer guard plates (2) at the two sides of the framework (1) are respectively provided with a feed inlet and a discharge outlet, and the feed inlet and the discharge outlet are provided with smoke-blocking curtains (3).
  7. 7. The robot cutting and welding workshop according to claim 1, further comprising a top cover (11), wherein the top cover (11) is detachably mounted on the top of the framework (1) through bolts, and the top cover (11) is provided with an air suction port (7).
  8. 8. The robot cutting and welding cell according to claim 7, wherein the top of the outer cover (2) is higher than the top of the skeleton (1).
  9. 9. The robot cutting and welding cell according to claim 7, wherein the bottom of the top cover (11) is connected to the top of the frame (1) by a fourth connecting member (24), the fourth connecting member (24) has a zigzag plate-like structure, and the fourth connecting member (24) is detachably connected to the top cover (11) and the frame (1) by bolts.
  10. 10. The robot cutting and welding cell according to claim 1, wherein the bottom of the skeleton (1) is fixedly provided with a plurality of feet (25) along its circumference.

Description

Workshop for robot cutting and welding Technical Field The utility model relates to the technical field of robot processing, in particular to a workshop for robot cutting and welding. Background With the rapid development of digital technology, robots are widely applied in the welding and cutting fields, a working room is a special place for the robots to carry out cutting, welding and other processing operations, the robots are arranged in the working room, an operator remotely operates a plurality of robots to act outside the working room so as to finish welding and cutting operations, and the working efficiency and the safety performance are effectively improved. The working room for robot welding and cutting is closed, so that welding waste gas is prevented from overflowing, the influence on the factory environment is reduced, and meanwhile, the health risk on operators is reduced. The existing workplace for robot welding and cutting is generally composed of a framework and an outer guard plate, so that the use cost is reduced, the frameworks are fixedly connected through a welding mode, and the frameworks and the outer guard plate are fixedly connected through the outer guard plate to form a closed space, so that the welding and cutting requirements of the robot are met. The frameworks of the existing workplace and the frameworks and the outer guard plates are fixedly connected in a welding mode, so that the assembly is difficult to disassemble, when the components of the workplace are damaged, the components of the workplace are difficult to replace and maintain, the transfer of the workplace is required to be cut and transferred or integrally hoisted, the transfer difficulty of the workplace is high, the cost is high, in addition, the outer guard plates are extremely easy to damage the surfaces in the welding and mounting process, and the overall attractiveness of the workplace is influenced after the installation. Disclosure of utility model In order to solve the technical problems that in the prior art, the frameworks of the existing workplace and the frameworks and the outer guard plates are fixedly connected in a welding mode, are difficult to detach after assembly is completed, are inconvenient to replace and maintain, and are high in transfer difficulty and high in cost, the utility model provides a workplace for robot cutting and welding. The technical scheme of the utility model is as follows: The utility model provides a working room for robot cutting and welding, which comprises a framework and an outer guard plate, wherein the framework is hinged with a double door, the framework is detachably connected with the outer guard plate through bolts, the framework comprises a plurality of section bar components, adjacent section bar components are detachably connected through a connecting plate assembly, the connecting plate assembly comprises a first connecting plate and a second connecting plate, a first connecting hole for installing bolts is formed in the first connecting plate, a second connecting hole for being in threaded connection with the bolts is formed in the second connecting plate, the first connecting plate and the second connecting plate are respectively and fixedly arranged on the two section bar components connected with each other, the outer guard plate and the framework and the section bar components of the framework are detachably connected through bolts, so that overhaul and replacement of each component of the working room are facilitated, overhaul cost is effectively reduced, the whole working room is detachable without cutting and splitting, the working room is improved in splitting efficiency and simplicity, the working room is more convenient to disassemble and transport, the first connecting plate and the second connecting plate are not only convenient to install bolts, but also the connecting area is improved, a large number of holes are formed in the section bar components of the framework, and the working room is prevented from affecting the stability. Preferably, the profile component includes first side frame, second side frame, middle frame, stand, crossbeam and horizontal muscle, and the front and the back of skeleton all include first side frame, second side frame and middle frame, and first side frame and second side frame set up the both sides at the middle frame relatively, all connect through a plurality of horizontal muscle between two adjacent first side frames and between two adjacent second side frames, connect through the stand between the horizontal muscle of homonymy, connect through the crossbeam between the stand of both sides, when reducing skeleton bulk weight, guaranteed the intensity and the stability of skeleton. Preferably, the first side frame, the second side frame and the middle frame are all of frame structures, so that the number of profile components required for on-site assembly can be reduced, and the assembly efficiency is improved.