CN219324881U - Laser engraving equipment for surface grains of golf club head - Google Patents

Abstract

The utility model discloses golf ball head surface grain laser engraving equipment, which comprises a workbench, wherein a supporting platform is arranged on the workbench, a sliding table X-axis assembly is arranged on the supporting platform, a sliding table vertical shaft assembly capable of sliding along the X-axis on the sliding table X-axis is arranged on the sliding table X-axis, a laser light path capable of sliding up and down on a sliding table vertical shaft and sliding along a Y-axis is arranged on the sliding table vertical shaft assembly, and one end of the laser light path is connected with a vibrating mirror; the workbench is also provided with a sliding table Y-axis assembly perpendicular to the supporting platform, the sliding table Y-axis assembly is provided with a lifter capable of sliding along the Y axis on the sliding table Y-axis assembly, the lifter is provided with a rotating mechanism, and the rotating mechanism is provided with a marking clamp assembly arranged below the laser head assembly. The utility model has high engraving precision, accurate positioning, low cost, high efficiency and high efficiency, and is more suitable for fine laser processing.

Description

Laser engraving equipment for surface grains of golf club head

[ field of technology ]

The utility model relates to laser engraving equipment, in particular to golf club head surface texture laser engraving equipment.

[ background Art ]

A laser marking machine (laser marking machine) uses a laser beam to mark the surface of a variety of substances permanently. The effect of marking is that deep layer substances are exposed through evaporation of surface layer substances, so that exquisite patterns, trademarks and characters are carved, and a laser marking machine is mainly divided into a CO2 laser marking machine, a semiconductor laser marking machine, an optical fiber laser marking machine and a YAG laser marking machine, and is mainly applied to occasions requiring finer and higher precision. The plastic composite material is applied to electronic components, integrated Circuits (ICs), electrical appliances, mobile phone communication, hardware, tool accessories, precision instruments, glasses clocks, jewelry accessories, automobile accessories, plastic keys, building materials and PVC pipes.

The prior golf head surface texture carving generally adopts a CNC machine tool to carry out stripe carving, and has the following defects: 1. the surface of a product is easily damaged due to high machining clamping force, 2, the tool bit is easily worn to cause stripe shape deformation; 3. groove stripe with special shape incapable of being processed by cutter head

[ utility model ]

The utility model aims to overcome the defects of the prior art and provide the golf ball head surface grain laser engraving equipment which has the advantages of high engraving precision, accurate positioning, low cost, high efficiency and high efficiency, and is more suitable for fine laser processing.

The purpose of the utility model is realized in the following way:

the golf ball head surface grain laser engraving equipment is characterized by comprising a workbench, wherein a supporting platform is arranged on the workbench, a sliding table X-axis assembly is arranged on the supporting platform, a sliding table vertical shaft assembly capable of sliding along the X-axis on the sliding table X-axis is arranged on the sliding table X-axis, a laser light path capable of sliding up and down on a sliding table vertical shaft and sliding along a Y-axis is arranged on the sliding table vertical shaft assembly, and one end of the laser light path is connected with a vibrating mirror; the workbench is also provided with a sliding table Y-axis assembly perpendicular to the supporting platform, the sliding table Y-axis assembly is provided with a lifter capable of sliding along the Y axis on the sliding table Y-axis assembly, the lifter is provided with a rotating mechanism, and the rotating mechanism is provided with a marking clamp assembly arranged below the laser head assembly.

The golf head surface grain laser engraving equipment is characterized in that the marking clamp assembly comprises a clamp top plate, a bottom supporting plate and a clamp leaning supporting plate are arranged on the clamp top plate, a clamp is arranged on the clamp leaning supporting plate, a positioning plate is further arranged on the outer side of the clamp top plate, and a positioning pin is arranged on the positioning plate.

The golf ball head surface grain laser engraving equipment is characterized in that the upper end of the rotating mechanism is provided with the rotating seat, the lower part of the fixture top plate of the marking fixture assembly is provided with the fixture base, the rotating seat is provided with the rotating groove for the fixture base to be inserted, two sides of the rotating groove are respectively provided with the rotating support plates, and the fixture base is inserted into the rotating groove and connected with the rotating support plates through the rotating shaft.

The golf ball head surface grain laser engraving equipment is characterized in that the rotating mechanism comprises a rotating table bottom plate, a first mounting plate and a second mounting plate are arranged on a pair of sides of the rotating table bottom plate, a first rotating table is arranged on the inner side of the first mounting plate, a first rotating plate is arranged on the inner side of the first rotating table, a second rotating table seat plate is arranged between the first rotating plate and the second mounting plate, a second rotating table is arranged on the second rotating table seat plate, and a rotating table plate is arranged at the upper end of the second rotating table.

The golf ball head surface grain laser engraving equipment is characterized in that the sliding table X-axis assembly comprises a sliding table X-axis main body, a sliding table X-axis sliding plate capable of sliding on the sliding table X-axis main body is arranged on the sliding table X-axis main body, a sliding table X-axis motor capable of driving the sliding table X-axis sliding plate to slide is arranged on one side of the sliding table X-axis main body, the sliding table vertical shaft assembly comprises a sliding table vertical shaft main body fixed with the sliding table X-axis sliding plate, a sliding table vertical shaft sliding plate capable of sliding on the sliding table vertical shaft main body is arranged on the sliding table vertical shaft main body, a manual rotating wheel capable of driving the sliding table vertical shaft sliding plate to slide is arranged at the upper end of the sliding table vertical shaft main body, and a laser light path seat plate for fixing a laser light path is arranged on the sliding table vertical shaft sliding plate.

The golf ball head surface grain laser engraving equipment is characterized in that the sliding table Y-axis assembly comprises a sliding table Y-axis main body, the sliding table Y-axis main body is provided with a sliding table Y-axis sliding plate capable of sliding on the sliding table Y-axis main body, and one side of the sliding table Y-axis main body is provided with a sliding table Y-axis motor capable of driving the sliding table Y-axis sliding plate to slide.

The golf ball head surface grain laser engraving equipment is characterized in that the lifter comprises a lifter and a lifter motor driving the lifter to lift.

The beneficial effects of the utility model are as follows:

the golf club head carving machine can be used for carrying out multidirectional positioning from multiple directions through the sliding table X-axis assembly, the sliding table vertical shaft assembly, the sliding table Y-axis assembly and the rotating mechanism, and is suitable for carving golf club heads with small processing breadth, multiple curved surfaces and fine local processing requirements. The engraving precision is high, the positioning is accurate, the engraving machine is more suitable for fine laser processing, the cost is low, the efficiency is high, and the efficiency is high.

[ description of the drawings ]

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of another aspect of the present utility model;

FIG. 3 is a block diagram of a marking jig assembly of the present utility model;

FIG. 4 is a block diagram of a marking jig assembly of the present utility model;

FIG. 5 is a block diagram of a rotary mechanism of the present utility model;

fig. 6 is a structural view of the rotary mechanism of the present utility model.

[ detailed description ] of the utility model

The utility model is further described below with reference to the accompanying drawings:

a golf ball head surface grain laser engraving device comprises a workbench 1, wherein a supporting platform 2 is arranged on the workbench 1, a sliding table X-axis assembly 3 is arranged on the supporting platform 2, a sliding table vertical shaft assembly 4 capable of sliding along the X-axis on the sliding table X-axis is arranged on the sliding table X-axis, a laser light path 5 capable of sliding up and down on the sliding table vertical shaft and sliding along the Y-axis is arranged on the sliding table vertical shaft assembly 4, and one end of the laser light path 5 is connected with a vibrating mirror 51; the workbench 1 is also provided with a sliding table Y-axis assembly 6 perpendicular to the supporting platform 2, the sliding table Y-axis assembly 6 is provided with a lifter 7 which can slide along the Y-axis on the sliding table Y-axis assembly, the lifter 7 is provided with a rotating mechanism 8, and the rotating mechanism 8 is provided with a marking clamp assembly 9 arranged below the vibrating mirror. The utility model can adjust from a plurality of directions through the sliding table X-axis assembly 3, the sliding table vertical shaft assembly 4, the sliding table Y-axis assembly 6 and the rotating mechanism 8, has high marking precision, accurate positioning and more compact structure, and is more suitable for fine laser marking.

The slipway X-axis assembly 3, the slipway vertical shaft assembly 4 and the rotating mechanism 8 can position the ball head in the marking fixture assembly 9 to a processing position, and the slipway vertical shaft assembly 4 can be manually adjusted to a proper current carving procedure position, wherein the position covers the working range of the lifter 7. The lifter 7 cooperates with the laser light path 5 to finely follow-up lift and adjust the focal plane position in the engraving process, and the sliding table X-axis assembly 3, the sliding table Y-axis assembly 6 and the rotating mechanism 8 also cooperate with the engraving pattern layer to carry out follow-up movement according to curved surface change in the engraving process.

The marking fixture assembly 9 comprises a fixture top plate 91, wherein a bottom supporting plate 92 and a clamp leaning supporting plate 93 are arranged on the fixture top plate 91, a clamp 94 is arranged on the clamp leaning supporting plate 93, a positioning plate 95 is further arranged on the outer side of the fixture top plate 91, and a plurality of positioning pins 96 are arranged on the positioning plate 95. When in use, the workpiece to be processed is placed on the bottom supporting plate 92, and then the clamp 94 on the clamp leaning supporting plate 93 and the positioning pins 96 on the positioning plate 95 are used for fixing and positioning, so that the fixture is firm and the positioning is accurate.

The upper end of the rotating mechanism 8 is provided with a rotating seat 811, the lower part of the clamp top plate 91 of the marking clamp assembly 9 is provided with a clamp base 97, the rotating seat 811 is provided with a rotating groove 812 for inserting the clamp base, two sides of the rotating groove 812 are respectively provided with a rotating support plate 813, and the clamp base 97 is inserted into the rotating groove and is connected with the rotating support plates 813 through a rotating shaft 98. This allows the clamp mount 97 to rotate on the swivel mount 811 and rotate the clamp top plate 91, thereby rotating the marking clamp assembly 9.

The rotating mechanism 8 comprises a rotating platform base plate 82, a first mounting plate 83 and a second mounting plate 84 are arranged on a pair of sides of the rotating platform base plate 82, a first rotating platform 85 is arranged on the inner side of the first mounting plate 83, a first rotating plate 86 is arranged on the inner side of the first rotating platform 85, a second rotating platform base plate 87 is arranged between the first rotating plate 86 and the second mounting plate 84, a second rotating platform 88 is arranged on the second rotating platform base plate 87, and a rotating platform plate 89 is arranged at the upper end of the second rotating platform 88.

The sliding table X-axis assembly 3 comprises a sliding table X-axis main body 31, wherein the sliding table X-axis main body 31 is provided with a sliding table X-axis sliding plate 32 capable of sliding on the sliding table X-axis main body, one side of the sliding table X-axis main body 31 is provided with a sliding table X-axis motor 33 capable of driving the sliding table X-axis sliding plate to slide, the sliding table vertical shaft assembly 4 comprises a sliding table vertical shaft main body 41 fixed with the sliding table X-axis sliding plate 32, the sliding table vertical shaft main body 41 is provided with a sliding table vertical shaft sliding plate 42 capable of sliding on the sliding table vertical shaft main body, the upper end of the sliding table vertical shaft main body 41 is provided with a manual rotating wheel 43 capable of driving the sliding table vertical shaft sliding plate to slide, and the sliding table vertical shaft sliding plate 42 is provided with a laser light path seat plate 44 for fixing a laser light path 5.

The sliding table Y-axis assembly 6 comprises a sliding table Y-axis main body 61, wherein the sliding table Y-axis main body 61 is provided with a sliding table Y-axis sliding plate 62 which can slide on the sliding table Y-axis main body, and one side of the sliding table Y-axis main body 61 is provided with a sliding table Y-axis motor 63 which can drive the sliding table Y-axis sliding plate to slide.

The elevator 7 of the present utility model includes an elevator frame 71, and an elevator motor 72 for driving the elevator frame 71 to rise and fall. The lifting frames 71 are preferably X-shaped in configuration.

Claims (7)

1. The golf ball head surface grain laser engraving equipment is characterized by comprising a workbench (1), wherein a supporting platform (2) is arranged on the workbench (1), a sliding table X-axis assembly (3) is arranged on the supporting platform (2), a sliding table vertical shaft assembly (4) capable of sliding along the X-axis on the sliding table X-axis is arranged on the sliding table X-axis assembly (3), a laser light path (5) capable of sliding up and down on the sliding table vertical shaft and sliding along the Y-axis is arranged on the sliding table vertical shaft assembly (4), and one end of the laser light path (5) is connected with a galvanometer (51); the automatic laser marking device is characterized in that the workbench (1) is further provided with a sliding table Y-axis assembly (6) perpendicular to the supporting platform (2), the sliding table Y-axis assembly (6) is provided with a lifter (7) capable of sliding along the Y axis, the lifter (7) is provided with a rotating mechanism (8), and the rotating mechanism (8) is provided with a marking clamp assembly (9) arranged below the laser head assembly.

2. The golf head surface texture laser engraving equipment according to claim 1, characterized in that the marking fixture assembly (9) comprises a fixture top plate (91), a bottom supporting plate (92) and a clamp leaning supporting plate (93) are arranged on the fixture top plate (91), a clamp (94) is arranged on the clamp leaning supporting plate (93), a positioning plate (95) is further arranged on the outer side of the fixture top plate (91), and a positioning pin (96) is arranged on the positioning plate (95).

3. The golf head surface grain laser engraving equipment according to claim 1, characterized in that a rotating seat (811) is arranged at the upper end of the rotating mechanism (8), a clamp base (97) is arranged at the lower part of a clamp top plate (91) of the marking clamp assembly (9), a rotating groove (812) for inserting the clamp base is arranged on the rotating seat (811), rotating support plates (813) are arranged at two sides of the rotating groove (812), and the clamp base (97) is inserted into the rotating groove and connected with the pair of rotating support plates (813) through a rotating shaft (98).

4. The golf club head surface grain laser engraving apparatus as recited in claim 1, characterized in that the rotation mechanism (8) includes a turntable base plate (82), a pair of sides of the turntable base plate (82) are provided with a first mounting plate (83) and a second mounting plate (84), a first turntable (85) is provided on an inner side of the first mounting plate (83), a first rotating plate (86) is provided on an inner side of the first turntable (85), a second turntable base plate (87) is provided between the first rotating plate (86) and the second mounting plate (84), a second turntable (88) is provided on the second turntable base plate (87), and a rotating platform plate (89) is provided on an upper end of the second turntable (88).

5. The golf ball head surface grain laser engraving equipment according to claim 1, characterized in that the sliding table X-axis assembly (3) comprises a sliding table X-axis main body (31), the sliding table X-axis main body (31) is provided with a sliding table X-axis sliding plate (32) capable of sliding on the sliding table X-axis main body, one side of the sliding table X-axis main body (31) is provided with a sliding table X-axis motor (33) capable of driving the sliding table X-axis sliding plate to slide, the sliding table vertical shaft assembly (4) comprises a sliding table vertical shaft main body (41) fixed with the sliding table X-axis sliding plate (32), the sliding table vertical shaft main body (41) is provided with a sliding table vertical shaft sliding plate (42) capable of sliding on the sliding table vertical shaft main body, the upper end of the sliding table vertical shaft main body (41) is provided with a manual rotating wheel (43) capable of driving the sliding table vertical shaft sliding plate to slide, and the sliding table vertical shaft sliding plate (42) is provided with a laser light path seat plate (44) for fixing a laser light path (5).

6. The laser engraving device for the surface grains of the golf club head according to claim 1, characterized in that the sliding table Y-axis assembly (6) comprises a sliding table Y-axis main body (61), the sliding table Y-axis main body (61) is provided with a sliding table Y-axis sliding plate (62) capable of sliding on the sliding table Y-axis main body, and one side of the sliding table Y-axis main body (61) is provided with a sliding table Y-axis motor (63) capable of driving the sliding table Y-axis sliding plate to slide.

7. A golf club head surface grain laser engraving apparatus according to claim 1, characterized in that said lifter (7) comprises a lifter (71), a lifter motor (72) driving the lifter (71) to lift.

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