CN216151455U - Double-control laser marking all-in-one machine - Google Patents

Abstract

The utility model discloses a double-control laser marking integrated machine, which solves the problem that the production working condition needing to combine pneumatic marking and laser marking is difficult to solve, and adopts the technical scheme that a positioning mechanism comprises a first motor, a chuck, a first cylinder, a supporting part, a first guide rail, a cylinder bottom plate and a tip, wherein the chuck and the first cylinder are respectively positioned at two ends of the first guide rail, the first motor is used for driving the chuck to rotate, the supporting part is used for supporting a workpiece, the first cylinder is fixedly connected with the cylinder bottom plate, the cylinder bottom plate is connected with the first guide rail in a sliding way and positioned through a positioning pin, the output end of the first cylinder is fixedly connected with the tip, the tip and the chuck are oppositely arranged, the marking mechanism comprises a machine head, a laser seat, a first ball screw assembly and a second ball screw assembly, the machine head is erected at the top of the chuck through the second guide rail, the machine head is connected with the second guide rail in a sliding way and positioned through a pin, the second guide rail is parallel with first guide rail, and the aircraft nose includes the copper point, and the copper point is three-axis motion structure.

Description

Double-control laser marking all-in-one machine

Technical Field

The utility model relates to the technical field of marking machines, in particular to a double-control laser marking all-in-one machine.

Background

The marking machine is a generalized concept and mainly comprises three types of pneumatics, lasers and electroerosion, wherein the three types are pneumatics: computer control, the printing needle is high frequency impact motion under the compressed air effect to print out the mark that has certain degree of depth on the work piece, mark characteristics: has larger depth; laser marking machines are used to permanently mark the surface of various materials with a laser beam. The marking effect is that the evaporation of the surface layer material exposes the deep layer material, thereby carving exquisite patterns, trademarks and characters; the electrocorrosion mainly prints fixed and unchangeable trademarks just like stamping, but the printing content is changed inconveniently.

At present, chinese utility model patent that publication number is CN212552364U discloses a carbon dioxide laser marking machine, including fixed plate one, workstation, laser equipment body, marking machine body, this internal first casing that is equipped with of marking machine, fixedly connected with supporting shoe and backup pad on the fixed plate one, be equipped with the motor on the supporting shoe, the output transmission of motor is connected with the worm, be equipped with the worm wheel in the backup pad. According to the utility model, the output end of the motor drives the worm to rotate, the worm wheel is driven to rotate due to the meshing of the worm wheel and the worm, and further the rotating arm is driven to rotate, the supporting arm is movably connected with the fixing block through the connecting rod, and the fixing block is fixedly connected with the fixing plate II, so that the fixing plate II moves in the vertical direction, and the height of the workbench can be well adjusted according to the height of an operator.

Although the device solves the problem that the height of the equipment workbench cannot be adjusted, the single laser marking mode has no advantages of high depth of conventional pneumatic marking and the like, and the two modes can better deal with complex production working conditions by combining use.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a double-control laser marking all-in-one machine which can combine pneumatic marking and laser marking.

In order to achieve the purpose, the utility model provides the following technical scheme that the double-control laser marking all-in-one machine comprises a machine cabinet and a workpiece, a positioning mechanism and a marking mechanism are arranged in the machine cabinet, the positioning mechanism comprises a first motor, a chuck, a first air cylinder, a supporting part, a first guide rail, an air cylinder bottom plate and a tip, the chuck and the first air cylinder are respectively positioned at two ends of the first guide rail, the first motor is used for driving the chuck to rotate, the supporting part is used for supporting the workpiece, the first air cylinder is fixedly connected with the air cylinder bottom plate, the air cylinder bottom plate is connected with the first guide rail in a sliding mode and positioned through a positioning pin, the output end of the first air cylinder is fixedly connected with the tip, the tip is arranged opposite to the chuck, the marking mechanism comprises a machine head, a laser seat, a first ball screw assembly and a second ball screw assembly, the machine head is erected at the top of the chuck through the second guide rail, the aircraft nose slides with the second guide rail and is connected and fix a position through the bolt, the second guide rail is parallel with first guide rail, the aircraft nose includes the copper point, the copper point is the triaxial motion structure, laser seat bottom fixedly connected with electric bottom plate, electric bottom plate is through first ball screw subassembly with guide rail vertically direction translation, electric bottom plate passes through second ball screw subassembly and is in the direction translation parallel with the guide rail, laser seat one end electricity is connected with the carbon dioxide scanning head.

Further setting the following steps: the machine head comprises a second motor, a belt, a two-way guide rail, a two-way slider, a height guide rail and a height screw rod, wherein the two-way slider is fixedly connected with the belt, the second motor drives the two-way slider to slide on the two-way guide rail through the belt, and the machine head slides on the height guide rail through the height screw rod.

Further setting the following steps: the support component comprises a bracket plate, an adjusting frame, a millimeter screw, a lifting guide pipe, a bracket plate and idler wheels, wherein the bracket plate is connected with the first guide rail in a sliding mode, the adjusting frame is fixedly connected with the bracket plate, the millimeter screw is vertically fixed with the bracket plate, the lifting guide pipe is in threaded fit with the millimeter screw and locked through nuts, the top of the lifting guide pipe is fixedly connected with the bracket plate, the idler wheels are rotatably connected with the bracket plate, and the idler wheels comprise two idler wheels which are respectively located at two ends of the bracket plate.

The cylinder bottom plate is further fixedly connected with the same supporting component.

Further setting the following steps: and the laser seat is also provided with a laser cover driven by an air cylinder.

Further setting the following steps: the cabinet is characterized in that a protective glass plate is arranged on one side of the cabinet, an operation screen electrically connected with the cabinet is arranged at the top of the protective glass plate, and a storage chute is fixedly welded at the bottom of the protective glass plate.

In summary, the utility model has the following advantages: the laser marking device has the advantages that more complex working conditions can be met during workpiece marking, the dual advantages of laser marking and pneumatic marking are combined, the use efficiency is high, the standard speed block is achieved, the automation degree of the overall design is high, the personnel operation is simple and convenient, and the important guarantee is provided for the production manufacturability of workpiece marking.

Drawings

FIG. 1 is an isometric view of example 1;

FIG. 2 is a right side view of embodiment 1;

FIG. 3 is a sectional view taken along line A-A of FIG. 2 of example 1;

FIG. 4 is a sectional view taken along line A-A of FIG. 3 in accordance with example 1;

FIG. 5 is a sectional view taken along line B-B of FIG. 3 of example 1.

In the figure, 1, a cabinet; 2. a workpiece; 3. a positioning mechanism; 31. a first motor; 32. a chuck; 33. a first cylinder; 34. a first guide rail; 35. a cylinder bottom plate; 36. a tip; 37. positioning pins; 4. a marking mechanism; 41. a machine head; 411. a second motor; 412. a belt; 413. a bidirectional guide rail; 414. a bidirectional slider; 415. a height guide rail; 416. a height screw; 42. a laser seat; 43. a first ball screw assembly; 44. a second ball screw assembly; 45. a second guide rail; 46. a bolt; 47. a copper tip; 48. an electric base plate; 49. a carbon dioxide scanning head; 5. A support member; 51. a bracket plate; 52. an adjusting bracket; 53. a millimeter screw; 54. a lifting catheter; 55. a mounting plate; 56. a roller; 6. a laser mask; 7. a cover glass plate; 8. an operation screen; 9. a storage tank.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Embodiment 1, two accuse laser marking all-in-one, including rack 1 and work piece 2:

as shown in fig. 1 and 3, a positioning mechanism 3 and a marking mechanism 4 are arranged in the cabinet 1, the positioning mechanism 3 includes a first motor 31, a chuck 32, a first cylinder 33, a supporting part 5, a first guide rail 34, a cylinder bottom plate 35 and a tip 36, the chuck 32 and the first cylinder 33 are respectively located at two ends of the first guide rail 34, the first motor 31 is used for driving the chuck 32 to rotate, the supporting part 5 is used for supporting the workpiece 2, the first cylinder 33 is fixedly connected with the cylinder bottom plate 35, the cylinder bottom plate 35 is slidably connected with the first guide rail 34 and is positioned by a positioning pin 37, an output end of the first cylinder 33 is fixedly connected with the tip 36, and the tip 36 is arranged opposite to the chuck 32.

As shown in fig. 3 and 4, the supporting member 5 includes a bracket plate 51, an adjusting bracket 52, a millimeter screw 53, a lifting guide pipe 54, a bracket plate 55 and a roller 56, the bracket plate 51 is slidably connected with the first guide rail 34, the adjusting bracket 52 is fixedly connected with the bracket plate 55, the millimeter screw 53 is vertically fixed with the bracket plate 51, the lifting guide pipe 54 is in threaded fit with the millimeter screw 53 and is locked by a nut, the top of the lifting guide pipe 54 is fixedly connected with the bracket plate 55, the roller 56 is rotatably connected with the bracket plate 55, and the roller 56 includes two rollers and is respectively located at two ends of the bracket plate 55.

Thereby positioning mechanism 3 is for the location and the rotation to work piece 2, pass through chuck 32 with work piece 2 one end and press from both sides tight fixedly, through adjusting millimeter screw 53 afterwards, make mounting panel 55 can adjust from top to bottom along the direction of lift pipe 54, and through nut locking fixed height, work piece 2 is located between gyro wheel 56, it and gyro wheel 56 rolling contact, two height-adjustable's support component 5 can be convenient for the work piece 2 of different diameter sizes fixed, after the height adjustment finishes, the other end of work piece 2 has been fixed promptly, when beating the mark seal, then there is first motor 31 to drive work piece 2 and rotate together, the realization is beaten the mark.

As shown in fig. 4 and 5, the marking mechanism 4 includes a head 41, a laser seat 42, a first ball screw assembly 43 and a second ball screw assembly 44, the head 41 is erected on the top of the chuck 32 through a second guide rail 45, the head 41 is slidably connected with the second guide rail 45 and is positioned through a bolt 46, the second guide rail 45 is parallel to the first guide rail 34, the head 41 includes a copper tip 47, the copper tip 47 is a three-axis moving structure, an electric bottom plate 48 is fixedly connected to the bottom of the laser seat 42, the electric bottom plate 48 is translated in a direction perpendicular to the first guide rail 34 through the first ball screw assembly 43, the electric bottom plate 48 is translated in a direction parallel to the first guide rail 34 through the second ball screw assembly 44, and one end of the laser seat 42 is electrically connected with a carbon dioxide scanning head 49.

As shown in fig. 5, the handpiece 41 includes a second motor 411, a belt 412, a bidirectional guide rail 413, a bidirectional slider 414, a height guide rail 415, and a height screw 416, the bidirectional slider 414 is fixedly connected to the belt 412, the second motor 411 drives the bidirectional slider 414 to slide on the bidirectional guide rail 413 through the belt 412, and the handpiece 41 slides on the height guide rail 415 through the height screw 416.

Thus, after the workpiece 2 is fixedly installed through the positioning mechanism 3, the marking mechanism 4 can start marking the workpiece 2:

firstly, the aircraft nose 41 that is located the chuck 32 top goes on, aircraft nose 41 can horizontal motion through second guide rail 45, satisfy the mark demand of beating the different segmentation of work piece 2, when beating the mark to single segmentation on work piece 2, bolt 46 fixes a position the back, aircraft nose 41 accessible second motor 411 drives the drive of belt 412 rotation mode, realize the motion of two directions on two-way guide rails 413, and the adjustment of vertical height, then can realize through high guide rail 415 and high screw 416 complex mode, the three-axis motion can be done to the copper point 47 of beating mark on aircraft nose 41 promptly, contact with work piece 2 after pneumatic drive copper point 47 is rotatory, can satisfy the mark demand of beating in multiple position.

Secondly, the laser seat 42 on one side of the workpiece 2 can also mark the workpiece 2, and the laser seat 42 can mark the workpiece 2 through the two-way motion on the two-way horizontal plane of the first ball screw component 43 and the second ball screw component 44, so that the marking depth can be controlled by adjusting the distance between the carbon dioxide scanning head 49 on the laser seat 42 and the workpiece 2, and the laser seat is practical and effective.

As shown in fig. 1, fig. 3 and fig. 3, the same supporting component 5 is fixedly connected to the cylinder bottom plate 35, the laser seat 42 is further provided with a cylinder-driven laser cover 6, one side of the cabinet 1 is a cover glass plate 7, the top of the cover glass plate 7 is provided with an operation screen 8 electrically connected with the cabinet 1, and the cabinet 1 is fixedly welded with a storage chute 9 at the bottom of the cover glass plate 7.

The laser cover 6 is used for protecting the carbon dioxide scanning head 49 when the carbon dioxide scanning head does not work, the cylinder is driven to open the cover at any time, the protective glass plate 7 is convenient for operators to observe and mark in time, the operation screen 8 is convenient to control the whole machine, and the storage tank 9 can be used for storing the workpieces 2 in advance.

The above-mentioned embodiments are merely illustrative and not restrictive, and those skilled in the art can make modifications to the embodiments without inventive contribution as required after reading the present specification, but only protected by the patent laws within the scope of the claims.

Claims (5)

1. The utility model provides a two accuse laser marking all-in-one, includes rack (1) and work piece (2), its characterized in that: the machine cabinet is characterized in that a positioning mechanism (3) and a marking mechanism (4) are arranged in the machine cabinet (1), the positioning mechanism (3) comprises a first motor (31), a chuck (32), a first air cylinder (33), a supporting part (5), a first guide rail (34), an air cylinder bottom plate (35) and a tip (36), the chuck (32) and the first air cylinder (33) are respectively located at two ends of the first guide rail (34), the first motor (31) is used for driving the chuck (32) to rotate, the supporting part (5) is used for supporting a workpiece (2), the first air cylinder (33) is fixedly connected with the air cylinder bottom plate (35), the air cylinder bottom plate (35) is connected with the first guide rail (34) in a sliding mode and is positioned through a positioning pin (37), the output end of the first air cylinder (33) is fixedly connected with the tip (36), the tip (36) is arranged opposite to the chuck (32), and the marking mechanism (4) comprises a machine head (41), A laser seat (42), a first ball screw component (43) and a second ball screw component (44), the machine head (41) is erected on the top of the chuck (32) through a second guide rail (45), the machine head (41) is connected with the second guide rail (45) in a sliding way and is positioned by a bolt (46), the second guide rail (45) being parallel to the first guide rail (34), the head (41) comprising a copper tip (47), the copper tip (47) is of a three-axis motion structure, the bottom of the laser seat (42) is fixedly connected with an electric bottom plate (48), the motorized base plate (48) translates in a direction perpendicular to the first guide rail (34) via the first ball screw assembly (43), the motorized base plate (48) translates in a direction parallel to the first guide rail (34) through the second ball screw assembly (44), one end of the laser seat (42) is electrically connected with a carbon dioxide scanning head (49).

2. The integrated double-control laser marking machine according to claim 1, which is characterized in that: including second motor (411), belt (412), two-way guide rail (413), two-way slider (414), height guide rail (415) and height screw rod (416) in aircraft nose (41), two-way slider (414) and belt (412) fixed connection, second motor (411) pass through belt (412) and drive two-way slider (414) and slide on two-way guide rail (413), aircraft nose (41) slide on height guide rail (415) through height screw rod (416).

3. The integrated double-control laser marking machine according to claim 1, which is characterized in that: the support component (5) comprises a bracket plate (51), an adjusting frame (52), a millimeter screw (53), a lifting guide pipe (54), a support plate (55) and rollers (56), the bracket plate (51) is connected with the first guide rail (34) in a sliding mode, the adjusting frame (52) is fixedly connected with the support plate (55), the millimeter screw (53) is vertically fixed with the bracket plate (51), the lifting guide pipe (54) is matched with the millimeter screw (53) in a threaded mode and locked through nuts, the top of the lifting guide pipe (54) is fixedly connected with the support plate (55), the rollers (56) are rotatably connected with the support plate (55), and the rollers (56) comprise two rollers and are located at two ends of the support plate (55) respectively.

4. The integrated double-control laser marking machine according to claim 1, which is characterized in that: the same supporting parts (5) are fixedly connected to the cylinder bottom plate (35).

5. The integrated double-control laser marking machine according to claim 1, which is characterized in that: and the laser seat (42) is also provided with a laser cover (6) driven by an air cylinder.

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