CN209773725U - Optimized double-laser marking device - Google Patents

Abstract

The utility model discloses an optimized double-laser marking device, which comprises a frame, wherein the upper part of the frame is provided with a mounting seat, one end of the mounting seat is provided with a glass tube laser extending inwards, and the other end of the frame is provided with a scanning head; a marking machine table is arranged on one side of the frame, which is positioned on the scanning head, and a lifting table is arranged on the marking machine table; a rotary reflector is rotatably arranged on the mounting plate and is arranged between the glass tube laser and the scanning head; an electrical cabinet is arranged in the middle of the rack, a metal tube laser is arranged on one side of the electrical cabinet, and one end of the metal tube laser extends upwards to the bottom of the mounting seat and is communicated with the mounting groove; the metal tube laser and the rotary reflector are in the same vertical direction; the utility model discloses a tubular metal resonator laser instrument and glass pipe laser instrument cooperation have improved work efficiency, and cost reduction and application scope are wide.

Description

Optimized double-laser marking device

Technical Field

The utility model relates to a laser marking equipment field, concretely relates to dual laser marking equipment of optimizing.

Background

The laser marking machine is an optical, electromechanical integrated device integrating laser technology and computer technology. The laser marking technique is now being paid more attention to its application in domestic and foreign industries, and various new marking devices are coming into the way, and it replaces the traditional marking method with its unique advantages, and can print marks on the surfaces of various objects such as various mechanical parts, electronic components, integrated circuit modules, instruments, meters, etc.

the working principle is that the laser generates laser, the laser irradiates the surface of a marking object after being focused by the focusing lens, and the marking object has a relatively ideal marking effect only when being located at a focal position.

Chinese patent (CN20390196U) discloses a double-head laser marking machine, which comprises a laser, a frame and a lifting device of the laser, wherein the frame is provided with a controller, and the laser comprises an optical bench fixed on the lifting device, a marking head connecting square box and two sets of laser scanning heads; the marking head connecting square box is connected with the optical bench and the laser scanning head, two total reflection mirrors are arranged in the marking head connecting square box, and the two total reflection mirrors reflect laser emitted by the optical bench to the other laser scanning head.

the glass tube laser can mark/carve/cut 80% of non-metal materials, but the glass tube laser has low price and short service life, is generally replaced once in half a year and cannot be reused. The metal tube laser has the advantages of high speed, strong stability, repeated use by inflation, more than six years of service life, capability of marking/carving/cutting all non-metal and partial metal materials, and smooth, fine and uniform marking effect. But several times more expensive than glass tubes.

If with glass pipe laser instrument and metal pipe laser instrument collocation, compatible cost and working effect well, the accommodation that makes the machine simultaneously is wider, can satisfy different operation requirements.

SUMMERY OF THE UTILITY MODEL

an object of the utility model is to overcome above-mentioned prior art not enough, provide one kind and improve work efficiency, reduce cost, accommodation is wide and can satisfy the dual laser marking device of the optimization of different operation requirements.

In order to achieve the above purpose, the technical scheme of the utility model realizes as follows: an optimized double-laser marking device comprises a rack, wherein an installation seat is arranged at the upper part of the rack, the installation seat is inwards sunken and provided with installation grooves, and the installation grooves extend towards two ends of the installation seat; one end of the mounting seat is provided with an inwardly extending glass tube laser, and the other end of the rack is provided with a scanning head;

a marking machine table for placing standard objects is arranged on one side, located on the scanning head, of the rack, and the marking machine table is provided with a lifting table for adjusting the distance between the marking objects and the scanning head;

the scanning head comprises a plurality of reflecting lenses and is used for changing the direction of the marking laser and enabling the marking laser to be emitted towards the marking machine;

The mounting seat is provided with a reflection assembly, the reflection assembly comprises a rotary reflecting mirror which is rotatably arranged, and the rotary reflecting mirror is arranged between the glass tube laser and the scanning head;

An electrical cabinet is arranged in the middle of the rack, a metal tube laser is arranged on one side of the electrical cabinet close to the marking machine table, and one end of the metal tube laser extends upwards to the bottom of the mounting seat and is communicated with the mounting groove; the metal tube laser and the reflector are in the same vertical direction;

When the rotating reflector rotates to form a first set angle with the horizontal plane, the metal tube laser emits first laser in a working mode, and the first laser is reflected to the scanning head through the rotating reflector, so that marking operation is achieved; when the rotating reflector rotates to a second set angle with the included angle of the horizontal plane, the glass tube laser emits second laser in working, and the second laser directly enters the scanning head to achieve marking operation.

Preferably, the reflection assembly further comprises a fixed block, the fixed block is fixedly connected to the mounting seat in a screw punching mode, and the fixed block is located between the glass tube laser and the scanning head; the one end of fixed block is equipped with the fixed bolster perpendicularly, be connected with rotatable electro-magnet on the fixed bolster, be connected with the fixed frame of speculum on the rotatable electro-magnet, be equipped with first circular through-hole on the fixed frame of speculum, the rotatable speculum is installed in the first circular through-hole and with a speculum fixed block side keeps flat.

preferably, a second circular through hole is formed in the fixed block in the vertical direction, and the second circular through hole and the metal tube laser are in the same vertical direction; and the second laser penetrates through the second circular through hole to be incident on the rotating reflector.

Preferably, baffles are arranged on the periphery of the marking machine table, a top plate is arranged above the baffles, and the baffles and the top plate are combined to form an accommodating space; the lifting platform is sequentially provided with a placing plate, a fixed plate and a hand rocker from top to bottom; the placing plate is positioned above the marking machine table; the fixed plate is positioned in the accommodating space and is fixedly connected to the top plate, a plurality of support rods are movably arranged at positions, close to the edges, of two opposite ends of the fixed plate, and each support rod comprises a first support rod, a second support rod, a third support rod and a fourth support rod; the upper ends of the first supporting rod and the second supporting rod penetrate through the fixing plate and are connected with the placing plate through a first connecting plate; the upper ends of the third supporting rod and the fourth supporting rod penetrate through the fixing plate and are connected with the placing plate through a second connecting plate.

Preferably, one end of the hand lever is movably connected to the marking machine table through a connecting block; the hand lever comprises a handle, a driving part, a driving rod, a connecting part and a transmission rod which are connected in sequence; the handle and the driving part are arranged outside the marking machine table, and the connecting part is fixedly connected to the fixing plate; a baffle plate of the marking machine table, which is positioned on one side of the hand rocker, is provided with a third circular through hole, one end of the driving rod is connected with the driving part, and the other end of the driving rod penetrates through the third circular through hole to be connected with the connecting part; the marking machine is characterized in that a fourth circular through hole is formed in a top plate of the marking machine table, one end of the transmission rod penetrates through the fourth circular through hole and the placing plate is fixedly connected, and the other end of the transmission rod penetrates through the connecting part and the movable connection part.

Preferably, one side of the marking machine table is provided with a control console, and the control console is used for controlling marking operation and displaying marking patterns.

Preferably, a circuit board and a controller are arranged in the electrical cabinet; the circuit board is connected with the controller; a plurality of heat dissipation holes are formed in one side of the electrical cabinet and comprise a first heat dissipation hole, a second heat dissipation hole and a third heat dissipation hole.

Preferably, the first set angle is 45 °; the second set angle is 135 °; the glass tube laser adopts a high-power glass tube laser; the metal tube laser adopts a low-power metal tube laser; the metal tube laser is provided with a plurality of radiators in the vertical direction, and the radiators comprise a first radiator, a second radiator, a third radiator and a fourth radiator.

Preferably, the bottom of the rack is provided with a plurality of supporting legs, and the supporting legs comprise a first supporting leg, a second supporting leg, a third supporting leg and a fourth supporting leg; and a fifth supporting leg, a sixth supporting leg, a seventh supporting leg and an eighth supporting leg are arranged at the bottom of the marking machine table.

preferably, the mounting seat is provided with a plurality of mounting brackets, and each mounting bracket comprises a first mounting bracket and a second mounting bracket; the glass tube laser sequentially penetrates through the first mounting bracket and the second mounting bracket and is fixedly connected to the first mounting bracket and the second mounting bracket.

Advantageous effects

Compared with the prior art, the utility model discloses the beneficial effect who gains does: the utility model discloses be equipped with metal tube laser instrument, glass tube laser instrument, rotatory speculum and scanning head, rotatory speculum rotates under the effect of rotatory electro-magnet, and when rotatory speculum rotated to become 45 with the horizontal plane, the metal tube laser instrument work launches first laser, first laser passes through rotatory speculum reflection to the scanning head, realizes marking operation; when the rotary reflector forms 135 degrees with the horizontal plane, the glass tube laser works to emit second laser, and the second laser directly enters the scanning head to realize marking operation; the utility model discloses a metal tube laser and glass pipe laser collocation have improved work efficiency, the cost is reduced, and accommodation is wide and can satisfy different operation requirements.

Drawings

fig. 1 is a schematic diagram of an overall structure of an optimized twin laser marking apparatus according to the present invention;

Fig. 2 is a rear view of an optimized twin laser marking apparatus of the present invention;

FIG. 3 is a schematic diagram of the connection between the mounting base of an optimized dual laser marking device of the present invention and a glass tube laser and a metal tube laser;

FIG. 4 is a front view of the mounting base of an optimized dual laser marking device of the present invention in connection with a glass tube laser and a metal tube laser;

Fig. 5 is a schematic structural diagram of a reflection assembly of an optimized twin laser marking apparatus according to the present invention;

Fig. 6 is a left side view of a reflective assembly of an optimized twin laser marking apparatus of the present invention;

fig. 7 is a schematic structural diagram of an elevating platform of an optimized twin laser marking apparatus according to the present invention;

Fig. 8 is a schematic structural view of a hand lever of an optimized twin laser marking apparatus of the present invention;

Fig. 9 is a front view of a hand lever of an optimized twin laser marking apparatus of the present invention;

Fig. 10 is a right side view of a marking table of an optimized dual laser marking device of the present invention;

Fig. 11 is a top view of a marking table of an optimized twin laser marking apparatus of the present invention;

Fig. 12 the utility model discloses a structural schematic of the tubular metal resonator laser of dual laser marking device of optimizing.

The technical characteristics corresponding to the marks in the attached drawings are as follows:

1-a frame, 11-a first supporting foot, 12-a second supporting foot, 13-a third supporting foot, 14-a fourth supporting foot, 2-a mounting seat, 21-a mounting groove, 22-a first mounting bracket, 23-a second mounting bracket, 24-a reflection assembly, 241-a fixed block, 2411-a second circular through hole, 242-a fixed bracket, 243-a rotary electromagnet, 244-a reflector fixed frame, 2441-a first circular through hole, 245-a rotary reflector, 25-a U-shaped cover, 3-a glass tube laser, 4-a scanning head, 5-a marking machine table, 51-a baffle, 511-a third circular through hole, 52-a top plate, 521-a fourth circular through hole, 53-a fifth supporting foot, 54-a sixth supporting foot and 55-a seventh supporting foot, 56-eighth supporting foot, 6-lifting platform, 61-placing plate, 62-fixing plate, 621-first supporting rod, 622-second supporting rod, 623-third supporting rod, 624-fourth supporting rod, 63-hand rod, 631-handle, 632-driving part, 633-driving rod, 634-connecting part, 635-driving rod, 65-first connecting plate, 66-second connecting plate, 7-electrical cabinet, 71-first heat dissipation hole, 72-second heat dissipation hole, 73-third heat dissipation hole, 8-metal tube laser, 81-first radiator, 82-second radiator, 83-third radiator, 84-fourth radiator and 9-control console.

Detailed Description

The following describes the present invention with reference to the accompanying drawings.

as shown in fig. 1 and 2, an optimized twin laser marking device includes a frame 1, wherein an installation seat 2 is arranged at an upper portion of the frame 1, the installation seat 2 is provided with an installation groove 21 in an inward concave manner, and the installation groove 21 extends towards two ends of the installation seat 2; one end of the mounting seat 2 is provided with an inwardly extending glass tube laser 3;

As shown in fig. 3 and 4, a plurality of mounting brackets are arranged on the mounting base 2, and each mounting bracket includes a first mounting bracket 22 and a second mounting bracket 23; the provision of the first mounting bracket 22 and the second mounting bracket 23 facilitates the mounting of the glass tube laser 3.

the glass tube laser 3 sequentially passes through the first mounting bracket 22 and the second mounting bracket 23 and is fixedly connected to the first mounting bracket 22 and the second mounting bracket 23.

As shown in fig. 1 and 2, a U-shaped cover 25 is disposed on one side of the mounting base 2 located on the glass tube laser 3, and one end of the glass tube laser 3 is located in the U-shaped cover 25;

as shown in fig. 1 and 2, the other end of the frame 1 is provided with a scanning head 4;

As shown in fig. 1 and 2, a marking machine table 5 for placing a standard object is arranged on one side of the frame 1, which is located at the scanning head 4, and the marking machine table 5 is provided with a lifting table 6 for adjusting the distance between the marking object and the scanning head;

The scanning head 4 comprises a plurality of reflecting lenses and is used for changing the direction of the marking laser and enabling the marking laser to be emitted towards the marking machine table 5;

As shown in fig. 1 to 6, a reflection assembly 24 is disposed on the mounting base 2, and the reflection assembly 24 is disposed between the glass tube laser 3 and the scanning head 4; the reflector assembly 24 includes a rotatably disposed rotating mirror 245;

as shown in fig. 5 and 6, the reflection assembly 24 further includes a fixing block 241, the fixing block 241 is connected to the mounting base 2 by means of screw drilling, and the fixing block is located between the glass tube laser and the scanning head; the one end of fixed block 241 is equipped with fixed bolster 242 perpendicularly, be connected with rotatable electro-magnet 243 on the fixed bolster 242, be connected with the fixed frame 244 of speculum on the rotatable electro-magnet 243, be equipped with first circular through-hole 2441 on the fixed frame 244 of speculum, the speculum 245 is installed in first circular through-hole 2441 and with a fixed frame 244 side of speculum is kept level.

As shown in fig. 5 and 8, a second circular through hole 2411 is formed in the fixing block 241 along the vertical direction, and the second circular through hole 2411 and the metal tube laser 3 are in the same vertical direction; the second laser light is incident on the rotating mirror 245 through the second circular through hole 2411.

As shown in fig. 1 and 2, an electrical cabinet 7 is arranged in the middle of the rack 1, a metal tube laser 8 is arranged on one side of the electrical cabinet 7 close to the marking machine table 5, and one end of the metal tube laser 8 extends upward to the bottom of the mounting seat 2 and is communicated with the mounting groove 21; the metal tube laser 8 and the reflector 244 are in the same vertical direction;

As shown in fig. 12, a plurality of heat sinks are arranged on the metal tube laser 8 along the vertical direction, and the heat sinks include a first heat sink 81, a second heat sink 82, a third heat sink 83, and a fourth heat sink 84; the first heat sink 81, the second heat sink 82, the third heat sink 83, and the fourth heat sink 84 are provided to dissipate heat from the metal tube laser 8.

as shown in fig. 1 and 2, a plurality of supporting legs are arranged at the bottom of the frame 1, and the supporting legs include a first supporting leg 12, a second supporting leg 13, a third supporting leg 14 and a fourth supporting leg 15; the first supporting leg 12, the second supporting leg 13, the third supporting leg 14 and the fourth supporting leg 15 are arranged to support the rack 1 conveniently.

as shown in fig. 9 and 10, a baffle 51 is arranged around the marking machine table 5, a top plate 52 is arranged above the baffle 51, and the baffle 51 and the top plate 52 are combined to form an accommodating space;

as shown in fig. 1, 2, 9 and 10, a fifth supporting foot 53, a sixth supporting foot 51, a seventh supporting foot 55 and an eighth supporting foot 56 are provided at the bottom of the marking machine table 5. The fifth supporting leg 53, the sixth supporting leg 54, the seventh supporting leg 55 and the eighth supporting leg 56 are arranged to support the marking machine table 5.

as shown in fig. 7, the lifting platform 6 is provided with a placing plate 61, a fixing plate 62 and a hand lever 63 in sequence from top to bottom; the placing plate 61 is positioned above the marking machine table 5; the fixing plate 62 is located in the accommodating space and is fixedly connected to the top plate 52, a plurality of support rods are movably arranged at positions close to the edges of two opposite ends of the fixing plate 62, and the support rods comprise a first support rod 621, a second support rod 622, a third support rod 623 and a fourth support rod 624; the upper ends of the first and second support bars 621 and 622 pass through the fixing plate 62 and are connected to the placing plate 61 by a first connecting plate 65; the upper ends of the third and fourth support bars 623 and 624 pass through the fixing plate 62 and are connected to the placing plate 61 by a second connecting plate 66.

as shown in fig. 8 and 9, one end of the hand lever 63 is movably connected to the marking machine through a connecting block 57; the hand lever 63 comprises a handle 631, a driving part 632, a driving rod 633, a connecting part 634 and a transmission rod 635 which are connected in sequence; the handle 631 and the driving part 632 are arranged outside the marking machine table 5, and the connecting part 634 is fixedly connected to the fixing plate 62; a third circular through hole 511 is formed in the baffle 51 of the marking machine platform, which is located on one side of the hand lever, one end of the driving rod 633 is connected with the driving part 632, and the other end of the driving rod passes through the third circular through hole 511 to be connected with the connecting part 634; a fourth circular through hole 521 is formed in the top plate 52 of the marking machine table 5, one end of the transmission rod 635 penetrates through the fourth circular through hole 521 to be fixedly connected with the placing plate 61, and the other end of the transmission rod 635 penetrates through the connecting portion 634 and is movably connected to the connecting portion 634.

As shown in fig. 1 and 2, a console 9 is disposed on one side of the marking machine 5, and the console 9 is used for controlling the marking operation and displaying the marking pattern.

A circuit board (not shown in the attached drawings) and a controller (not shown in the attached drawings) are arranged in the electrical cabinet 7; the circuit board is connected with the controller.

As shown in fig. 2, a plurality of heat dissipation holes are formed in one side of the electrical cabinet 7, and the heat dissipation holes include a first heat dissipation hole 71, a second heat dissipation hole 72, and a third heat dissipation hole 73. The first, second, and third louvers 71, 72, 73 are configured to facilitate heat dissipation for the electrical cabinet 7.

the glass tube laser 3 adopts a high-power glass tube laser, and the metal tube laser 8 adopts a low-power metal tube laser. The matching of the high-power glass tube laser and the low-power metal tube laser can effectively prolong the service life of the glass tube laser 3 and the metal tube laser 8, simultaneously improve the working efficiency, reduce the cost, have wide application range and can meet different use requirements.

when the rotating reflector 245 rotates to form a first set angle with the horizontal plane, that is, the first set angle is 45 degrees, the metal tube laser 3 works; when the included angle between the rotating reflector 245 and the horizontal plane is a second set angle, that is, the second set angle is 135 °, the glass tube laser 8 works.

The working process of the present invention is described in detail below:

The rotating reflecting mirror 245 is driven by the rotating electromagnet 242 to rotate, when the rotating reflecting mirror 245 rotates to form an angle of 45 degrees with the horizontal plane, the metal tube laser 3 works to emit first laser, and the first laser is reflected to the scanning head 4 through the rotating reflecting mirror 244, so that marking operation is realized; when the rotating reflector 245 rotates to form 135 degrees with the horizontal plane, the glass tube laser 8 works to emit second laser, and the second laser is directly incident to the scanning head 4, so that marking operation is realized.

The above description is only an embodiment of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions within the technical scope of the present disclosure should be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims; variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (10)

1. An optimized double-laser marking device is characterized by comprising a rack, wherein the upper part of the rack is provided with a mounting seat, the mounting seat is inwards recessed and provided with a mounting groove, and the mounting groove extends towards two ends of the mounting seat; one end of the mounting seat is provided with an inwardly extending glass tube laser, and the other end of the rack is provided with a scanning head;

a marking machine table for placing a marking object is arranged on one side, located on the scanning head, of the rack, and a lifting table for adjusting the distance between the marking object and the scanning head is arranged on the marking machine table;

The scanning head comprises a plurality of reflecting lenses and is used for changing the direction of the marking laser and enabling the marking laser to be emitted towards the marking machine;

the mounting seat is provided with a reflection assembly, and the reflection assembly is arranged between the glass tube laser and the scanning head; the reflecting assembly comprises a rotary reflecting mirror which is arranged in a rotating mode;

An electrical cabinet is arranged in the middle of the rack, a metal tube laser is arranged on one side of the electrical cabinet close to the marking machine table, and one end of the metal tube laser extends upwards to the bottom of the mounting seat and is communicated with the mounting groove; the metal tube laser and the reflector are in the same vertical direction;

when the rotating reflector rotates to form a first set angle with the horizontal plane, the metal tube laser emits first laser in a working mode, and the first laser is reflected to the scanning head through the rotating reflector, so that marking operation is achieved; when the rotating reflector rotates to a second set angle with the included angle of the horizontal plane, the glass tube laser emits second laser in working, and the second laser directly enters the scanning head to achieve marking operation.

2. the optimized twin laser marking device as defined in claim 1, wherein: the reflection assembly further comprises a fixed block, the fixed block is fixedly connected to the mounting seat in a screw punching mode, and the fixed block is located between the glass tube laser and the scanning head; the one end of fixed block is equipped with the fixed bolster perpendicularly, be connected with the rotary electromagnet on the fixed bolster, be connected with the fixed frame of speculum on the rotary electromagnet, be equipped with first circular through-hole on the fixed frame of speculum, the rotary reflector is installed in the first circular through-hole and with a speculum fixed block side keeps flat.

3. The optimized dual-laser marking device as claimed in claim 2, wherein a second circular through hole is formed in the fixing block in the vertical direction, and the second circular through hole and the metal tube laser are in the same vertical direction; and the second laser penetrates through the second circular through hole to be incident on the rotating reflector.

4. the optimized twin laser marking device as defined in claim 1, wherein: the periphery of the marking machine table is provided with a baffle, a top plate is arranged above the baffle, and the baffle and the top plate are combined to form an accommodating space; the lifting platform is sequentially provided with a placing plate, a fixed plate and a hand rocker from top to bottom; the placing plate is positioned above the marking machine table; the fixed plate is positioned in the accommodating space and is fixedly connected to the top plate, a plurality of support rods are movably arranged at positions, close to the edges, of two opposite ends of the fixed plate, and each support rod comprises a first support rod, a second support rod, a third support rod and a fourth support rod; the upper ends of the first supporting rod and the second supporting rod penetrate through the fixing plate and are connected with the placing plate through a first connecting plate; the upper ends of the third supporting rod and the fourth supporting rod penetrate through the fixing plate and are connected with the placing plate through a second connecting plate.

5. The optimized twin laser marking device as defined in claim 4, wherein: one end of the hand lever is movably connected to the marking machine table through a connecting block; the hand lever comprises a handle, a driving part, a driving rod, a connecting part and a transmission rod which are connected in sequence; the handle and the driving part are arranged outside the marking machine table, and the connecting part is fixedly connected to the fixing plate; a baffle plate of the marking machine table, which is positioned on one side of the hand rocker, is provided with a third circular through hole, one end of the driving rod is connected with the driving part, and the other end of the driving rod penetrates through the third circular through hole to be connected with the connecting part; the marking machine is characterized in that a fourth circular through hole is formed in a top plate of the marking machine table, one end of the transmission rod penetrates through the fourth circular through hole and the placing plate is fixedly connected, and the other end of the transmission rod penetrates through the connecting part and the movable connection part.

6. the optimized twin laser marking device as defined in claim 1, wherein: one side of the marking machine table is provided with a control table, and the control table is used for controlling marking operation and displaying marking patterns.

7. the optimized dual laser marking device as claimed in claim 1, wherein a circuit board and a controller are disposed within the electrical cabinet; the circuit board is connected with the controller; a plurality of heat dissipation holes are formed in one side of the electrical cabinet and comprise a first heat dissipation hole, a second heat dissipation hole and a third heat dissipation hole.

8. The optimized twin laser marking apparatus as defined in claim 1 wherein the first set angle is 45 °; the second set angle is 135 °; the glass tube laser adopts a high-power glass tube laser; the metal tube laser adopts a low-power metal tube laser; the metal tube laser is provided with a plurality of radiators in the vertical direction, and the radiators comprise a first radiator, a second radiator, a third radiator and a fourth radiator.

9. The optimized twin laser marking apparatus of claim 1 wherein the bottom of the frame has a plurality of support legs including a first support leg, a second support leg, a third support leg and a fourth support leg; and a fifth supporting leg, a sixth supporting leg, a seventh supporting leg and an eighth supporting leg are arranged at the bottom of the marking machine table.

10. The optimized twin laser marking apparatus as defined in claim 1 wherein the mounting base has a plurality of mounting brackets thereon, the mounting brackets including a first mounting bracket and a second mounting bracket; the glass tube laser sequentially penetrates through the first mounting bracket and the second mounting bracket and is fixedly connected to the first mounting bracket and the second mounting bracket.