CN210451749U

CN210451749U - Laser marking and slitting integrated machine

Info

Publication number: CN210451749U
Application number: CN201921272888.9U
Authority: CN
Inventors: 余德山; 王林; 嵇海文
Original assignee: Suzhou Chanxan Laser Technology Co ltd
Current assignee: Suzhou Chanxan Laser Technology Co ltd
Priority date: 2019-08-07
Filing date: 2019-08-07
Publication date: 2020-05-05
Anticipated expiration: 2029-08-07

Abstract

The utility model provides a laser marking and slitting integrated machine, which comprises a frame, a feeding guide mechanism, a discharging guide mechanism, an encoder, a laser marking machine and a slitting mechanism; the feeding guide mechanism and the discharging guide mechanism are respectively arranged on the left side and the right side of the table top of the frame; the encoder is arranged between the feeding guide mechanism and the discharging guide mechanism and used for positioning the marking distance of the workpiece; the light outlet part of the laser marking machine is positioned between the encoder and the discharging guide mechanism and is positioned right above the workpiece; the strip cutting mechanism is positioned on the right side of the discharging guide mechanism and comprises a support frame, a cylinder, a cutter and a bracket, the cylinder is arranged on the support frame, the cutter is fixedly connected with the cylinder, and the cylinder can drive the cutter to cut off a workpiece; the bracket is positioned right below the cutter and used for supporting the workpiece. The utility model discloses can carry out high-speed mark and slitting to the work piece continuously, beat mark and slitting precision height.

Description

Laser marking and slitting integrated machine

Technical Field

The utility model belongs to the technical field of laser beam machining equipment, concretely relates to laser marking slitting all-in-one.

Background

The laser marking machine is to use the laser beam emitted by the laser to form high-energy laser beam under the action of the galvanometer scanning system and the focusing system to mark permanent mark on the surface of the material. For a wound long-strip workpiece, the workpiece needs to be moved at a high speed during marking, the workpiece is cut into the same length after marking, and the existing laser marking and cutting are respectively completed on different devices, so that the positioning accuracy of marking and cutting is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a solve the laser marking slitting all-in-one of above problem.

The utility model provides a following technical scheme:

a laser marking and slitting integrated machine comprises a rack, a feeding guide mechanism, a discharging guide mechanism, an encoder, a PLC (programmable logic controller), a laser marking machine and a slitting mechanism;

the feeding guide mechanism and the discharging guide mechanism are respectively arranged on the left side and the right side of the table board of the rack, and the feeding guide mechanism and the discharging guide mechanism are used for continuously conveying long-strip-shaped workpieces to one side of the slitting mechanism;

the encoder is arranged between the feeding guide mechanism and the discharging guide mechanism, is positioned right above the workpiece, is used for positioning the marking distance of the workpiece, and is connected with the signal input end of the PLC controller;

the laser marking machine is arranged on the rack, and a light outlet part of the laser marking machine is positioned between the encoder and the discharging guide mechanism and is positioned right above the workpiece; the signal output end of the PLC controller is connected with a host of the laser marking machine;

the strip cutting mechanism is positioned on the right side of the discharging guide mechanism and comprises a support frame, an air cylinder, a cutter and a bracket, the support frame is fixed on the rack, the air cylinder is arranged on the support frame, the cutter is fixedly connected with a piston rod of the air cylinder, a signal output end of the PLC is connected with the air cylinder, and the air cylinder can drive the cutter to cut off the workpiece; the bracket is positioned right below the cutter and is used for supporting the workpiece.

Preferably, the feeding guide mechanism comprises a guide frame, a feeding conveying belt and a feeding pressing belt, a horizontal guide hole is formed in the guide frame, and a workpiece can pass through the guide hole; the feeding conveyer belt is driven by a motor to operate, the feeding material pressing belt is arranged above the feeding conveyer belt, and the feeding material pressing belt and the feeding conveyer belt can press the workpiece and convey the workpiece to the right side.

Preferably, the discharging guide mechanism comprises a discharging conveying belt and a discharging material pressing belt, the discharging conveying belt is driven by a motor to operate, the discharging material pressing belt is installed above the discharging conveying belt, and the discharging material pressing belt and the discharging conveying belt can compress the workpiece and convey the workpiece to the right side.

Preferably, the rack is further provided with a purging mechanism, the purging mechanism comprises a support and a plurality of air blowing pipes, the support is mounted below the light emitting portion of the laser marking machine in an inclined mode, the air blowing pipes are mounted at the top of the support respectively, and the air outlets of the air blowing pipes face towards the marking positions of the workpiece.

Preferably, the purging mechanism further comprises a chip collecting groove, the chip collecting groove is mounted on the frame and located below the marking position of the workpiece, and the chip collecting groove can collect waste chips generated by laser marking.

Preferably, the blanking device further comprises a blanking conveying mechanism, the blanking conveying mechanism is connected with the right end of the rack, the blanking conveying mechanism comprises a blanking table and a blanking conveying belt installed on the blanking table, the blanking conveying belt and the discharging guide mechanism are located on the same straight line, and the height of the blanking conveying belt is lower than that of a table top of the rack.

Preferably, a base is installed on the table top of the rack, and the laser marking machine is installed on the base; and an auxiliary bracket is further installed on the base and supports the workpiece.

Preferably, the hole bottom of the guide hole, and the tops of the feeding conveyer belt, the discharging conveyer belt, the bracket, the chip collecting groove and the auxiliary bracket are all located in the same height plane.

The utility model has the advantages that: the laser marking machine and the slitting mechanism of the utility model can continuously mark and slit long-strip workpieces at high speed, mark points of the workpieces moving at high speed are positioned by the encoder, and marking precision is ensured; and the cylinder and the cutter of the slitting mechanism perform sectional slitting on the marked workpiece to obtain finished products with equal length. The utility model discloses a feeding guiding mechanism, encoder, laser marking machine, ejection of compact guiding mechanism and slitting mechanism install in the frame in proper order, have guaranteed whole smooth nature and the work accuracy of beating mark and slitting flow. The feeding guide mechanism and the discharging guide mechanism are respectively positioned on the left side and the right side of the table board, play a role in supporting, guiding and conveying the workpiece, keep the workpiece in a tensioning state during marking and slitting, and improve the marking and slitting precision.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural view of the feeding guide mechanism of the present invention;

FIG. 3 is a schematic structural view of the blowing mechanism and the discharging guide mechanism of the present invention;

FIG. 4 is a schematic structural view of the discharging guide mechanism, the slitting mechanism and the blanking conveying mechanism of the present invention;

labeled as: 1. a frame; 11. a base; 12. an auxiliary bracket; 2. a feed guide mechanism; 21. a guide frame; 211. a guide hole; 22. a feed conveyor belt; 23. feeding a material pressing belt; 3. a discharge guide mechanism; 31. a discharge conveyer belt; 32. a discharging material pressing belt; 4. an encoder; 5. laser marking machine; 6. a slitting mechanism; 61. a support frame; 62. a cylinder; 63. a cutter; 64. a bracket; 7. a purging mechanism; 71. a support; 72. an air blowing pipe; 73. a chip collecting groove; 8. a blanking conveying mechanism; 81. a blanking table; 82. a blanking conveyer belt; 9. and a control screen.

Detailed Description

As shown in fig. 1, the laser marking and slitting integrated machine comprises a machine frame 1, a feeding guide mechanism 2, a discharging guide mechanism 3, an encoder 4, a PLC (programmable logic controller), a laser marking machine 5, a purging mechanism 7, a slitting mechanism 6 and a blanking conveying mechanism 8.

As shown in fig. 1 and 2, the feeding guide mechanism 2 and the discharging guide mechanism 3 are respectively installed on the left and right sides of the table of the frame 1, and the feeding guide mechanism 2 and the discharging guide mechanism 3 are used for continuously conveying a long workpiece to one side of the slitting mechanism 6. The feeding guide mechanism 2 comprises a guide frame 21, a feeding conveyer belt 22 and a feeding material pressing belt 23, a horizontal guide hole 211 is formed in the guide frame 21, and a workpiece can pass through the guide hole 211 and then enter the feeding conveyer belt 22; the feeding conveyer belt 22 is driven by a motor to operate, the feeding material pressing belt 23 is installed above the feeding conveyer belt 22, and the feeding material pressing belt 23 and the feeding conveyer belt 22 can simultaneously press the workpiece and convey the workpiece to the right side.

As shown in fig. 3, the discharging guide mechanism 3 includes a discharging conveyer belt 31 and a discharging material pressing belt 32, the discharging conveyer belt 31 is driven by a motor to operate, the discharging material pressing belt 32 is installed above the discharging conveyer belt 31, and the discharging material pressing belt 32 and the discharging conveyer belt 31 can simultaneously press the workpiece and convey the workpiece to the right side.

Encoder 4 installs between feeding guiding mechanism 2 and ejection of compact guiding mechanism 3 to be located the work piece directly over, encoder 4's model is Bojia B-ZSP3806GL, and PLC controller's signal input part is connected to encoder 4's output pulse signal end, and it is used for detecting the linear displacement of work piece, fixes a position the beat mark distance of work piece, in order to guarantee to beat the position accuracy of mark.

As shown in fig. 1, a base 11 is installed on the table-board of the machine frame 1, and the laser marking machine 5 is installed on the base 11; the laser light-emitting part of the laser marking machine 5 is positioned between the encoder 4 and the discharging guide mechanism 3 and is positioned right above the workpiece; the signal output end of the PLC controller is connected with the host of the laser marking machine 5, and the PLC controller can control the laser marking machine 5 to mark the workpiece in time according to the received detection signal of the encoder 4. And the frame 1 is also provided with a control screen 9 which is connected with the PLC controller and is used for inputting and displaying control parameters.

As shown in fig. 3, the frame 1 is provided with the purging mechanism 7, the purging mechanism 7 includes a bracket 71 and a blowing pipe 72, the plurality of brackets 71 are respectively installed at the obliquely lower part of the light emitting part of the laser marking machine 5, the plurality of blowing pipes 72 are respectively installed at the top of the bracket 71, the blowing pipe 72 is connected with an external air source, and the air outlet of the blowing pipe 72 faces the marking position of the workpiece. Because laser is beaten the standard and is formed high thermal environment on the work piece surface to can produce the dirt bits, gas blow pipe 72 can cool down and blow the sweeps to the work piece. The blowing mechanism 7 further comprises a chip collecting groove 73, the chip collecting groove 73 is mounted on the frame 1 and located below the marking position of the workpiece, and the chip collecting groove 73 can collect the waste chips blown by the blowing pipe 72.

As shown in fig. 4, the slitting mechanism 6 is located on the right side of the discharging guide mechanism 3, the slitting mechanism 6 comprises a support frame 61, an air cylinder 62, a cutter 63 and a bracket 64, the support frame 61 is fixed on the frame 1, the air cylinder 62 is installed on the support frame 61, the cutter 63 is fixedly connected with a piston rod of the air cylinder 62, a signal output end of the PLC controller is connected with the air cylinder 62, and the PLC controller can control the air cylinder 62 to act in a timing mode to drive the cutter 63 to cut off a workpiece downwards. The bracket 64 is positioned right below the cutter 63, and the bracket 64 can stably support the workpiece and the cutter 63 to make the cut straight and smooth.

The blanking conveying mechanism 8 is connected with the right end of the frame 1, the blanking conveying mechanism 8 comprises a blanking table 81 and a blanking conveying belt 82 arranged on the blanking table 81, the blanking conveying belt 82 and the discharging guide mechanism 4 are positioned on the same straight line, the height of the blanking conveying belt 82 is lower than the table top of the frame 1, and the blanking conveying belt 82 can receive cut-off workpieces and convey the workpieces to the next process.

As shown in fig. 1, two auxiliary brackets 12 are further mounted on the base 11, and the auxiliary brackets 12 support the workpiece at a middle portion thereof. The bottom wall of the guide hole 211, the top of the feeding conveyer belt 22, the discharging conveyer belt 31, the bracket 64, the chip collecting groove 73 and the auxiliary bracket 12 are all located in the same height plane, so that the workpiece is always kept in a flat tensioning conveying state, and the workpiece is prevented from drooping.

The working process of the equipment is as follows: the end part of the wound workpiece extends into the guide hole 211 and then is sequentially arranged on the feeding conveyer belt 22, the auxiliary bracket 12, the scrap collecting groove 73, the discharging conveyer belt 31 and the bracket 64 of the slitting mechanism, and the feeding guide mechanism 2 and the discharging guide mechanism 3 convey the workpiece to the right side at a high speed. The encoder 4 outputs marking distance positioning signals of the workpiece to the PLC, the PLC controls the laser marking machine 5 to mark the workpiece according to the signals, meanwhile, the blowing mechanism 7 blows and cools the marked part in real time, and scraps enter the scrap collecting groove 73. The marked workpiece moves to the slitting mechanism 6, the air cylinder 62 timely drives the cutter 63 to cut off the workpiece downwards to form a segmented finished product, and the finished product automatically falls onto the blanking conveyer belt 82 and is conveyed to the next process by the blanking conveyer belt 82.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A laser marking and slitting integrated machine is characterized by comprising a rack, a feeding guide mechanism, a discharging guide mechanism, an encoder, a PLC (programmable logic controller), a laser marking machine and a slitting mechanism;

2. The laser marking and slitting integrated machine as claimed in claim 1, wherein the feeding guide mechanism comprises a guide frame, a feeding conveyer belt and a feeding material pressing belt, a horizontal guide hole is formed in the guide frame, and the workpiece can pass through the guide hole; the feeding conveyer belt is driven by a motor to operate, the feeding material pressing belt is arranged above the feeding conveyer belt, and the feeding material pressing belt and the feeding conveyer belt can press the workpiece and convey the workpiece to the right side.

3. The laser marking and slitting integrated machine as claimed in claim 2, wherein the discharging guide mechanism comprises a discharging conveyer belt and a discharging material pressing belt, the discharging conveyer belt is driven by a motor to run, the discharging material pressing belt is mounted above the discharging conveyer belt, and the discharging material pressing belt and the discharging conveyer belt can press the workpiece and convey the workpiece to the right side.

4. The laser marking and slitting integrated machine according to claim 3, wherein a purging mechanism is further mounted on the rack and comprises a support and a plurality of blowing pipes, the supports are respectively mounted below a light emitting portion of the laser marking machine, the blowing pipes are respectively mounted at the tops of the supports and are connected with an external air source, and an air outlet of each blowing pipe faces a marking position of the workpiece.

5. The all-in-one machine for laser marking and slitting as claimed in claim 4, wherein the purging mechanism further comprises a chip collecting groove, the chip collecting groove is mounted on the frame and located below the marking position of the workpiece, and the chip collecting groove can collect waste chips generated by laser marking.

6. The laser marking and slitting integrated machine as claimed in claim 5, further comprising a blanking conveying mechanism, wherein the blanking conveying mechanism is connected with the right end of the frame, the blanking conveying mechanism comprises a blanking table and a blanking conveying belt mounted on the blanking table, the blanking conveying belt and the discharging guide mechanism are located on the same straight line, and the height of the blanking conveying belt is lower than that of a table surface of the frame.

7. The all-in-one machine for marking and slitting laser as claimed in claim 5, wherein a base is mounted on the table top of the frame, and the laser marking machine is mounted on the base; and an auxiliary bracket is further installed on the base and supports the workpiece.

8. The all-in-one machine for marking and slitting laser as claimed in claim 7, wherein the hole bottom of the guide hole and the tops of the feeding conveyer belt, the discharging conveyer belt, the bracket, the chip collecting groove and the auxiliary bracket are all located in the same height plane.