CN215880373U - Automatic go up unloading laser cutting machine - Google Patents

Automatic go up unloading laser cutting machine Download PDF

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Publication number
CN215880373U
CN215880373U CN202121837295.XU CN202121837295U CN215880373U CN 215880373 U CN215880373 U CN 215880373U CN 202121837295 U CN202121837295 U CN 202121837295U CN 215880373 U CN215880373 U CN 215880373U
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China
Prior art keywords
cylinder
fixed
lifting
laser cutting
fixing plate
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CN202121837295.XU
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Chinese (zh)
Inventor
吴冬兵
沈堤
孙敏楠
赵大伟
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Shanghai 3k Laser Technology Co ltd
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Shanghai 3k Laser Technology Co ltd
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Priority to CN202121837295.XU priority Critical patent/CN215880373U/en
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Abstract

The utility model discloses an automatic loading and unloading laser cutting machine, which belongs to the technical field of laser cutting machines and comprises a rack, a feeding assembly, a first transportation assembly, a first lifting assembly, a second lifting assembly, a detection assembly, a third lifting assembly and a placement area; the first transportation assembly comprises a first transportation cylinder, a first fixing plate, a second fixing plate and a third fixing plate; the first transportation cylinder is fixed on the rack, and the first fixing plate, the second fixing plate and the third fixing plate are all fixed on the first transportation cylinder; the first lifting assembly comprises a first lifting cylinder, a first clamping cylinder and a first clamping jaw; the first lifting cylinder is fixed with the first fixing plate, the first lifting cylinder is fixed with the first clamping cylinder, and the first clamping cylinder is fixed with the first clamping jaw. This application has the reduction cost of labor to improve the production efficiency's of material cutting effect.

Description

Automatic go up unloading laser cutting machine
Technical Field
The utility model relates to an automatic feeding and discharging laser cutting machine, and belongs to the technical field of laser cutting machines.
Background
The laser cutting machine focuses laser emitted from a laser into a laser beam with high power density through an optical path system. The laser beam irradiates the surface of the workpiece to make the workpiece reach a melting point or a boiling point, and simultaneously, the high-pressure gas coaxial with the laser beam blows away the molten or gasified metal.
At present, manual feeding is adopted for equipment, products are placed in a cutting tool manually, a starting button is pressed, laser starts cutting, the size of the cut products is measured manually after the laser cutting is finished, and the defect of low production efficiency exists.
Disclosure of Invention
The technical problem to be solved by the utility model is as follows: the utility model provides an automatic go up unloading laser cutting machine, it has solved the lower problem of production efficiency among the prior art.
The technical problem to be solved by the utility model is realized by adopting the following technical scheme:
an automatic feeding and discharging laser cutting machine comprises: a frame;
and a laser cutting assembly; the laser cutting assembly is arranged on the rack and used for cutting a material to be machined;
further comprising:
the feeding assembly is used for conveying a substitute processing material to the first workbench;
the first transportation assembly comprises a first transportation cylinder, a first fixing plate, a second fixing plate and a third fixing plate; wherein the content of the first and second substances,
one end of the first transportation cylinder is fixed on the rack, a piston rod of the first transportation cylinder is arranged in parallel with the surface of the rack, the first fixing plate, the second fixing plate and the third fixing plate are all fixed at the other end of the first transportation cylinder, and the first fixing plate, the second fixing plate and the third fixing plate are sequentially and uniformly arranged at intervals along the extending direction of the piston rod of the first transportation cylinder;
the first lifting assembly comprises a first lifting cylinder, a first clamping cylinder and a first clamping jaw; wherein the content of the first and second substances,
one end of the first lifting cylinder is fixed with the first fixing plate, a piston rod of the first lifting cylinder is vertically arranged, the other end of the first lifting cylinder is fixed with the first clamping cylinder, and the movable end of the first clamping cylinder is fixed with the first clamping jaw;
the second lifting assembly comprises a second lifting cylinder, a second clamping cylinder and a second clamping jaw; wherein the content of the first and second substances,
the second lifting cylinder is fixed with the second fixing plate, a piston rod of the second lifting cylinder is vertically arranged, the other end of the second lifting cylinder is fixed with the second clamping cylinder, and the movable end of the second clamping cylinder is fixed with the second clamping jaw;
the detection device is used for detecting the qualified rate of the processed materials;
the third lifting assembly comprises a third lifting cylinder, a third clamping cylinder and a third clamping jaw; wherein the content of the first and second substances,
the third lifting cylinder is fixed with a third fixing plate, a piston rod of the third lifting cylinder is vertically arranged, the other end of the third lifting cylinder is fixed with a third clamping cylinder, and the movable end of the piston rod of the third lifting cylinder is fixed with a third clamping jaw;
and a placement area for placing the inspected material.
As a preferred example, the feeding device comprises a vibrating disc, a conveying plate, a second carrying cylinder, a pushing block and a first limiting plate; wherein the content of the first and second substances,
the vibration disc is arranged on the ground, and two sides of the conveying plate are fixed with the vibration disc and the first workbench respectively;
one end of the second carrying cylinder is fixed on the first workbench, the other end of the second carrying cylinder is fixed with the push block, the first limiting plate is fixed on the first workbench, and the piston rod of the second carrying cylinder points to the first limiting plate.
As a preferred example, the detection assembly includes a vision measurement system and a vision measurement mirror;
the vision measuring mirror is vertically detachably fixed on the rack, and the vision measuring system points to the vision measuring mirror.
As a preferred example, a first lifting frame is arranged on the machine frame;
the vision measuring system is arranged on the first lifting frame in a sliding mode, and a first fixing piece for fixing the vision measuring system is arranged on the first lifting frame;
the vision measuring mirror slides and is arranged on the first lifting frame, and the first lifting frame is provided with a second fixing piece for fixing the vision measuring mirror.
As a preferred example, the laser cutting assembly comprises a laser cutter;
the laser cutting machine is characterized in that a second workbench is arranged on the rack, the first workbench, the second workbench and the third workbench correspond to the first fixing plate, the second fixing plate and the third fixing plate in position one to one, and the laser cutting instrument points to the second workbench.
As a preferred example, a second fixing frame is arranged on the rack, and a screw rod vertically penetrates through the second fixing frame;
a sliding block is fixed on one side of the laser cutting instrument, the screw threads penetrate through the sliding block, and the side wall of the periphery of the sliding block is tightly abutted to the inner wall of the second fixing frame.
As a preferred example, a rotating wheel is disposed on the second fixing frame, and the screw rod penetrates through the second fixing frame and is coaxially fixed with the rotating wheel.
As a preferred example, the placement area includes a first placement location, a connection plate, and a second placement location;
the height of the upper surface of the first placing position is higher than that of the upper surface of the second placing position, and two sides of the connecting plate are fixed to the upper surfaces of the first placing position and the second placing position respectively.
As a preferred example, two second limiting plates are fixed on the second workbench, the two second limiting plates are arranged in parallel, and the distance between the two second limiting plates is the same as the width of the substitute machining material;
and two third limiting plates are fixed on the third workbench, the two third limiting plates are arranged in parallel, and the distance between the two third limiting plates is the same as the width of the processed material.
As a preferred example, two first avoidance grooves are formed in the first clamping jaw, and the two first avoidance grooves are arranged oppositely; when the first clamping jaw is positioned on one side of the first limiting plate, two sides of the first limiting plate are clamped and arranged in the inner walls of the two first avoidance grooves; when the first clamping jaw is positioned on one side of the second limiting plate, two sides of the second limiting plate are respectively clamped with the inner walls of the two first avoidance grooves;
two second avoidance grooves are formed in the second clamping jaw and are oppositely arranged; when the second clamping jaw is positioned on one side of the second limiting plate, two sides of the second limiting plate are clamped and arranged in the two second avoiding grooves; when the second clamping jaw is positioned on one side of the third limiting plate, two sides of the third limiting plate are respectively clamped with the inner walls of the two second avoidance grooves;
two third dodging grooves are formed in the third clamping jaw and are arranged oppositely, and two sides of the third limiting plate are connected with the two third dodging inner walls in a clamped mode.
The utility model has the beneficial effects that:
1. the first clamping cylinder drives the first clamping jaw to grab the material from the first workbench and place the material on the second workbench for cutting; then, a second clamping jaw is driven by a second clamping cylinder to grab the material from the second workbench and place the material on a third workbench for detection; at last, the third clamping cylinder drives the third clamping jaw to grab qualified materials from the third workbench to the second placing position, the unqualified materials are grabbed from the third workbench to the first placing position, labor cost reduction is facilitated, and production efficiency of material cutting is improved.
2. First transportation cylinder drives first clamping jaw, second clamping jaw and third clamping jaw simultaneously and feeds, helps the device to process three material simultaneously.
3. The visual measurement system is arranged, so that the cut materials can be detected by workers, and the qualified rate of finished materials can be improved.
Drawings
Fig. 1 is an axis view of the overall structure of an automatic loading and unloading laser cutting machine according to an embodiment of the present application;
fig. 2 is a schematic diagram of a laser cutting structure for automatic loading and unloading in this embodiment.
In the figure: 1. a frame; 11. a first table; 12. a second table; 121. a second limiting plate; 13. a third working table; 131. a third limiting plate; 14. a second fixing frame; 141. a second sliding groove; 142. a screw; 143. a rotating wheel; 15. a first lifting frame; 151. a first slide rail; 152. a first fixing member; 153. a second fixing member; 2. a laser cutting assembly; 21. a laser cutting instrument; 211. a slider; 3. a feed assembly; 31. a vibrating pan; 32. a transfer plate; 33. a second carrying cylinder; 34. a push block; 35. a first limit plate; 4. a first transport assembly; 41. a first transport cylinder; 42. a first fixing plate; 43. a second fixing plate; 44. a third fixing plate; 5. a first lifting assembly; 51. a first lifting cylinder; 52. a first clamping cylinder; 53. a first jaw; 531. a first avoidance slot; 6. a second lifting assembly; 61. a second lifting cylinder; 62. a second clamping cylinder; 63. a second jaw; 631. a second avoidance slot; 7. a detection component; 71. a vision measurement system; 72. a vision measuring mirror; 8. a third lifting assembly; 81. a third lifting cylinder; 82. a third clamping cylinder; 83. a third jaw; 831. a third avoidance slot; 9. a placement area; 91. a first placing position; 92. a second placing bit; 93. a connecting plate.
Detailed Description
In order to make the technical means, the original characteristics, the achieved purpose and the efficacy of the utility model easy to understand, the utility model is further described with reference to the specific drawings.
The embodiment of the application discloses automatic go up unloading laser cutting machine.
Referring to fig. 1 and 2, the automatic loading and unloading laser cutting machine comprises a machine frame 1, a laser cutting assembly 2, a feeding assembly 3, a first transportation assembly 4, a first lifting assembly 5, a second lifting assembly 6, a detection assembly 7, a third lifting assembly 8 and a placement area 9.
The frame 1 sets up subaerial, and the upper surface of frame 1 and ground parallel arrangement are fixed with first workstation 11, second workstation 12 and third workstation 13 on the frame 1, and the length direction of first workstation 11, second workstation 12, third workstation 13 three sets up in parallel to each other.
Two second limiting plates 121 are fixed on the second workbench 12, the two second limiting plates 121 are arranged in parallel, and the distance between the two second limiting plates 121 is the same as the width of the material to be machined.
Two third limiting plates 131 are fixed on the third workbench 13, the two third limiting plates 131 are arranged in parallel, and the distance between the two third limiting plates 131 is the same as the width of the processed material.
The feeding assembly 3 includes a vibration plate 31, a transfer plate 32, a second carrying cylinder 33, a pushing block 34, and a first limit plate 35.
The vibration disc 31 is fixed on the ground, the conveying plate 32 is arranged in a U shape, two ends of the conveying plate 32 are respectively fixed with the vibration disc 31 and the first workbench 11, and the conveying plate 32 is arranged horizontally.
The first limiting plate 35 is fixed on the first workbench 11, the cylinder body of the second carrying cylinder 33 is fixed on the first workbench 11, the piston rod of the second carrying cylinder 33 is fixed with the push block 34, and the piston rod of the second carrying cylinder 33 points to the first limiting plate 35. The piston rod of the second carrying cylinder 33 drives the pushing block 34 to slide towards the first limiting plate 35, and the pushing block 34 pushes the material to be processed to abut against the first limiting plate 35.
The first transporting assembly 4 includes a first transporting cylinder 41, a first fixing plate 42, a second fixing plate 43, and a third fixing plate 44.
The cylinder body of the first transportation cylinder 41 is fixed on the frame 1, the piston rod of the first transportation cylinder 41 and the piston rod feeding direction of the second transportation cylinder 33 are horizontally and vertically arranged, the first fixing plate 42, the second fixing plate 43 and the third fixing plate 44 are sequentially fixed on the piston rod of the first transportation cylinder 41 at equal intervals along the extending direction of the piston rod, and the first workbench 11, the second workbench 12 and the third workbench 13 correspond to the first fixing plate 42, the second fixing plate 43 and the third fixing plate 44 one by one in position. The piston rod of the first transporting cylinder 41 drives the first fixing plate 42, the second fixing plate 43 and the third fixing plate 44 to move along the extending direction of the piston rod of the first transporting cylinder 41.
The first lifting assembly 5 includes a first lifting cylinder 51, a first clamping cylinder 52, and a first clamping jaw 53.
Two first avoidance grooves 531 are formed in the first clamping jaw 53, and the two first avoidance grooves 531 are arranged oppositely.
The cylinder body of the first lifting cylinder 51 is fixed on the first fixing plate 42, the piston rod of the first lifting cylinder 51 is vertically arranged, and the end of the piston rod of the first lifting cylinder 51 is fixed with the cylinder body of the first clamping cylinder 52. The piston rod of the first lifting cylinder 51 drives the first clamping cylinder 52 to move up and down.
The movable end of the first clamping cylinder 52 is parallel to the ground, and the movable end of the first clamping cylinder 52 is fixed to the first clamping jaw 53. The movable end of the first clamping cylinder 52 drives the first clamping jaw 53 to open or contract, so that the processing material is conveniently conveyed to the second workbench 12 from the first workbench 11, and the processing material is tightly abutted to the second limiting plate 121.
The laser cutting assembly 2 comprises a laser cutting instrument 21, a sliding block 211 is fixed on one side of the laser cutting instrument 21, a second fixing frame 14 is vertically fixed on the rack 1, a second sliding groove 141 is vertically formed in the second fixing frame 14, a screw 142 vertically penetrates through the second fixing frame 14, a rotating wheel 143 is arranged on the upper side of the second fixing frame 14, and the upper end of the screw 142 penetrates through the second fixing frame 14 and is fixed with the rotating wheel 143.
The screw 142 penetrates the slider 211, and the side wall of the peripheral side of the slider 211 abuts against the inner wall of the second sliding groove 141. The staff rotates runner 143, and runner 143 drives the screw rod 142 and rotates, and screw rod 142 drives slider 211 and slides along the direction of seting up of second groove 141 that slides, and slider 211 drives laser cutting appearance 21 and slides from top to bottom to according to the material and the thickness of material, adjust the distance between the transmission mouth of laser cutting appearance 21 and the material.
When the first clamping jaw 53 is located on one side of the first limiting plate 35, two sides of the first limiting plate 35 are clamped and arranged in the inner walls of the two first avoiding grooves 531; when the first clamping jaw 53 is located on one side of the second limiting plate 121, two sides of the second limiting plate 121 are respectively connected with the inner walls of the two first avoiding grooves 531 in a clamping manner. The first clamping jaw 53 is helpful for accurately gripping the material, and the material is convenient to convey.
The second lifting assembly 6 includes a second lifting cylinder 61, a second clamping cylinder 62 and a second clamping jaw 63.
Two second avoiding grooves 631 are formed in the second clamping jaw 63, and the two second avoiding grooves 631 are arranged oppositely.
The second lifting cylinder 61 is fixed with the second fixing plate 43, a piston rod of the second lifting cylinder 61 is vertically arranged, and the end of the piston rod of the second lifting cylinder 61 is fixed with the cylinder body of the second clamping cylinder 62. The piston rod of the second lifting cylinder 61 drives the second clamping cylinder 62 to move up and down.
The movable end of the second clamping cylinder 62 is fixed with the second clamping jaw 63. The movable end of the second clamping cylinder 62 drives the second clamping jaw 63 to grasp the processed material, thereby facilitating the placement of the processed material on the third worktable 13.
The inspection assembly 7 includes a vision measurement system 71 and a vision measurement mirror 72.
The first lifting frame 15 is vertically fixed on the rack 1, the first lifting frame 15 is vertically protruded to form a first sliding rail 151, and the first lifting frame 15 is provided with a first fixing part 152.
The first lifting frame 15 is provided with a second fixing member 153, in this embodiment, the second fixing member 153 includes a second fixing bolt, the second fixing bolt penetrates through one side of the vision measuring mirror 72 and is abutted against the side wall of the first slide rail 151, and the vision measuring mirror 72 is located between the third workbench 13 and the vision measuring system 71.
When the second clamping jaw 63 is located on one side of the second limiting plate 121, two sides of the second limiting plate 121 are clamped and arranged in the two second avoiding grooves 631; when the second clamping jaw 63 is located on one side of the third limiting plate 131, two sides of the third limiting plate 131 are respectively connected with the inner walls of the two second avoiding grooves 631 in a clamping manner.
The third lifting assembly 8 includes a third lifting cylinder 81, a third clamping cylinder 82 and a third clamping jaw 83.
Two third dodging grooves 831 are formed in the third clamping jaw 83, the two third dodging grooves 831 are arranged oppositely, and two sides of the third limiting plate 131 are respectively clamped with the inner walls of the two third dodging grooves 831.
The cylinder body of the third lifting cylinder 81 is fixed to the third fixing plate 44, the piston rod of the third lifting cylinder 81 is vertically disposed, and the end of the piston rod of the third lifting cylinder 81 is fixed to the third clamping cylinder 82. The piston rod of the third lifting cylinder 81 drives the cylinder body of the third clamping cylinder 82 to move up and down.
The placement region 9 includes a first placement site 91, a second placement site 92, and a connection plate 93.
In this embodiment, the first placing position 91 includes a placing box, the height of the placing box is higher than that of the second placing position 92, and two sides of the connecting plate 93 are respectively connected with the placing box and the second placing position 92.
The movable end of the third clamping cylinder 82 is fixed with the third clamping jaw 83. The movable end of the second clamping cylinder 62 drives the second clamping jaw 63 to grasp the processed material, so that qualified materials are placed in the second placing area conveniently, and unqualified materials are placed in the first placing area.
The implementation principle of the embodiment of the application is as follows: in actual work, materials are firstly conveyed to the first workbench 11 from the vibration disc 31 through the conveying plate 32; then, the materials are tightly abutted against the first limiting plate 35 through the second carrying cylinder 33; then the first driving cylinder drives the first lifting cylinder 51 to one side of the first worktable 11; then, the first clamping jaw 53 is driven to open by the first clamping cylinder 52; then the first lifting cylinder 51 moves downwards, so that the first clamping jaw 53 and the material are coplanar; then the first clamping cylinder 52 drives the first clamping jaw 53 to clamp the material; then the first lifting cylinder 51 drives the first clamping cylinder 52 to move upwards, and the first clamping cylinder 52 drives the first clamping jaw 53 to move upwards.
The first transportation cylinder 41 drives the first lifting cylinder 51 to one side of the second workbench 12; then, the first lifting cylinder 51 drives the first clamping cylinder 52 to move downwards, at this time, the inner walls of the two first limiting grooves respectively abut against two sides of the second limiting plate 121 close to one side of the first clamping cylinder 52, and meanwhile, two sides of the material abut against the two second limiting plates 121; then, the first clamping cylinder 52 drives the first clamping jaw 53 to open, and the laser cutting instrument 21 cuts the material.
The first transportation cylinder 41 drives the second lifting cylinder 61 to the second workbench 12, and at this time, the first lifting cylinder 51 returns to one side of the first workbench 11; then the second clamping cylinder 62 drives the second clamping jaw 63 to open; then the second lifting cylinder 61 drives the second clamping cylinder 62 to move downwards, and the second clamping cylinder 62 drives the second clamping jaw 63 to move downwards until the second clamping jaw is flush with the object; then the second clamping cylinder 62 drives the second clamping jaw 63 to clamp the material; then, the second lifting cylinder 61 drives the second clamping cylinder 62 to move upwards, and the second clamping cylinder 62 drives the material to move upwards.
The first transportation cylinder 41 drives the second lifting cylinder 61 to one side of the third workbench 13; then the second lifting cylinder 61 drives the second clamping cylinder 62 to move downwards, at this time, the inner walls of the two second limiting grooves respectively abut against two sides of a third limiting plate 131 close to one side of the second clamping cylinder 62, and meanwhile, two sides of the material abut against the two third limiting plates 131; then the second clamping cylinder 62 opens the second clamping jaw 63, and the vision measuring system 71 detects the material; at this time, the first lift cylinder 51 moves to the second table 12 side, and the next part is machined.
Then the first transportation cylinder 41 drives the third lifting cylinder 81 to one side of the third workbench 13; then the third lifting cylinder 81 drives the third clamping cylinder 82 to move downwards, the third clamping cylinder 82 drives the third clamping jaw 83 to move downwards until the third clamping jaw is flush with the object, and then the third clamping cylinder 82 drives the third clamping jaw 83 to clamp the material; then, the third lifting cylinder 81 drives the third clamping cylinder 82 to move upwards, and the third clamping cylinder 82 drives the material to move upwards; when the material detection is qualified, the first transportation cylinder 41 drives the third lifting cylinder 81 to the position above the connecting plate 93, then the third clamping cylinder 82 drives the third clamping jaw 83 to open, and the article slides along the connecting plate 93 to the second placing position 92; when boring to detect unqualifiedly, first transportation cylinder 41 drives third lift cylinder 81 to the top of first place position 91, and later third centre gripping cylinder 82 drives third clamping jaw 83 and opens, and article are put into first place in the position 91.
The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that various changes and modifications may be made without departing from the spirit and scope of the utility model as defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. An automatic feeding and discharging laser cutting machine comprises: a frame (1);
and a laser cutting assembly (2); the laser cutting assembly (2) is arranged on the rack (1) and is used for cutting a material to be machined; the method is characterized in that:
further comprising:
the feeding assembly (3), a first workbench (11) is fixed on the rack (1), and the feeding assembly (3) is used for conveying a substitute processing material to the first workbench (11);
a first transport assembly (4), the first transport assembly (4) comprising a first transport cylinder (41), a first fixing plate (42), a second fixing plate (43), and a third fixing plate (44); wherein the content of the first and second substances,
one end of the first transportation cylinder (41) is fixed on the rack (1), a piston rod of the first transportation cylinder (41) is parallel to the surface of the rack (1), the first fixing plate (42), the second fixing plate (43) and the third fixing plate (44) are fixed at the other end of the first transportation cylinder (41), and the first fixing plate (42), the second fixing plate (43) and the third fixing plate (44) are sequentially and uniformly arranged at intervals along the extension direction of the piston rod of the first transportation cylinder (41);
the first lifting assembly (5), the first lifting assembly (5) comprises a first lifting cylinder (51), a first clamping cylinder (52) and a first clamping jaw (53); wherein the content of the first and second substances,
one end of the first lifting cylinder (51) is fixed with the first fixing plate (42), a piston rod of the first lifting cylinder (51) is vertically arranged, the other end of the first lifting cylinder (51) is fixed with the first clamping cylinder (52), and the movable end of the first clamping cylinder (52) is fixed with the first clamping jaw (53);
the second lifting assembly (6) comprises a second lifting cylinder (61), a second clamping cylinder (62) and a second clamping jaw (63); wherein the content of the first and second substances,
the second lifting cylinder (61) is fixed with the second fixing plate (43), a piston rod of the second lifting cylinder (61) is vertically arranged, the other end of the second lifting cylinder (61) is fixed with the second clamping cylinder (62), and the movable end of the second clamping cylinder (62) is fixed with the second clamping jaw (63);
the detection assembly (7), the detection assembly (7) is used for detecting the qualified rate of the processed materials;
the third lifting assembly (8), the third lifting assembly (8) comprises a third lifting cylinder (81), a third clamping cylinder (82) and a third clamping jaw (83); wherein the content of the first and second substances,
the third lifting cylinder (81) is fixed with the third fixing plate (44), a piston rod of the third lifting cylinder (81) is vertically arranged, the other end of the third lifting cylinder (81) is fixed with the third clamping cylinder (82), and the movable end of the piston rod of the third lifting cylinder (81) is fixed with the third clamping jaw (83);
and a placement area (9) for placing the inspected material.
2. The automatic feeding and discharging laser cutting machine according to claim 1, wherein: the feeding assembly (3) comprises a vibrating disc (31), a conveying plate (32), a second carrying cylinder (33), a pushing block (34) and a first limiting plate (35); wherein the content of the first and second substances,
the vibration disc (31) is arranged on the ground, and two sides of the conveying plate (32) are respectively fixed with the vibration disc (31) and the first workbench (11);
the one end of second transport cylinder (33) is fixed on first workstation (11), the other end and ejector pad (34) of second transport cylinder (33) are fixed, just first limiting plate (35) are fixed on first workstation (11), just the directional first limiting plate (35) of piston rod of second transport cylinder (33).
3. The automatic feeding and discharging laser cutting machine according to claim 1, wherein: the detection assembly (7) comprises a vision measuring system (71) and a vision measuring mirror (72);
be provided with third workstation (13) on frame (1), vision measurement mirror (72) can be dismantled and fix in frame (1), vision measurement mirror (72) set up in third workstation (13) upside, vertical the dismantling of vision measurement system (71) is fixed in frame (1), just the directional vision measurement mirror (72) of vision measurement system (71).
4. The automatic feeding and discharging laser cutting machine according to claim 3, wherein: a first lifting frame (15) is arranged on the rack (1);
the vision measuring system (71) is arranged on the first lifting frame (15) in a sliding mode, and a first fixing piece (152) for fixing the vision measuring system (71) is arranged on the first lifting frame (15);
the vision measuring mirror (72) is arranged on the first lifting frame (15) in a sliding mode, and a second fixing piece (153) for fixing the vision measuring mirror (72) is arranged on the first lifting frame (15).
5. The automatic feeding and discharging laser cutting machine according to claim 3, wherein: the laser cutting assembly (2) comprises a laser cutting instrument (21);
the laser cutting machine is characterized in that a second workbench (12) is arranged on the rack (1), the first workbench (11), the second workbench (12) and the third workbench (13) correspond to the first fixing plate (42), the second fixing plate (43) and the third fixing plate (44) in position one by one, and the laser cutting instrument (21) points to the second workbench (12).
6. The automatic feeding and discharging laser cutting machine according to claim 5, wherein: a second fixing frame (14) is arranged on the rack (1), and a screw rod (142) vertically penetrates through the second fixing frame (14);
a sliding block (211) is fixed on one side of the laser cutting instrument (21), the screw (142) penetrates through the sliding block (211) in a threaded mode, and the side wall of the peripheral side of the sliding block (211) is tightly abutted to the inner wall of the second fixing frame (14).
7. The automatic feeding and discharging laser cutting machine according to claim 6, wherein: the second fixing frame (14) is provided with a rotating wheel (143), and the screw rod (142) penetrates through the second fixing frame (14) and is coaxially fixed with the rotating wheel (143).
8. The automatic feeding and discharging laser cutting machine according to claim 1, wherein: the placing area (9) comprises a first placing position (91), a connecting plate (93) and a second placing position (92);
the height of the upper surface of the first placing position (91) is higher than that of the upper surface of the second placing position (92), and two sides of the connecting plate (93) are fixed with the upper surfaces of the first placing position (91) and the second placing position (92) respectively.
9. The automatic feeding and discharging laser cutting machine according to claim 5, wherein: two second limiting plates (121) are fixed on the second workbench (12), the two second limiting plates (121) are arranged in parallel, and the distance between the two second limiting plates (121) is the same as the width of the substitute processing material;
two third limiting plates (131) are fixed on the third workbench (13), the two third limiting plates (131) are arranged in parallel, and the distance between the two third limiting plates (131) is the same as the width of the processed material.
10. The automatic feeding and discharging laser cutting machine according to claim 2, wherein: seted up two first grooves of dodging (531) on first clamping jaw (53), two first grooves of dodging (531) set up relatively, just the both sides joint of first limiting plate (35) sets up in two first inner walls of dodging groove (531).
CN202121837295.XU 2021-08-06 2021-08-06 Automatic go up unloading laser cutting machine Active CN215880373U (en)

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CN202121837295.XU CN215880373U (en) 2021-08-06 2021-08-06 Automatic go up unloading laser cutting machine

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Application Number Priority Date Filing Date Title
CN202121837295.XU CN215880373U (en) 2021-08-06 2021-08-06 Automatic go up unloading laser cutting machine

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115047659A (en) * 2022-07-06 2022-09-13 深圳恩泽瑞显示科技有限公司 LCD pin detects correcting unit

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115047659A (en) * 2022-07-06 2022-09-13 深圳恩泽瑞显示科技有限公司 LCD pin detects correcting unit
CN115047659B (en) * 2022-07-06 2023-06-09 深圳恩泽瑞显示科技有限公司 LCD pin detection and correction device

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