CN109759693A - A kind of twin-laser marking equipment of optimization - Google Patents

Abstract

The invention discloses a kind of twin-laser marking equipment of optimization, including rack, the top of the rack is equipped with mounting base, and one end of the mounting base is equipped with the glass tube laser to extend internally, and the other end of the rack is equipped with probe；The side that the rack is located at probe is equipped with mark board, and the mark board is equipped with lifting platform；Rotation is equipped with rotating mirror on the mounting plate, and the rotating mirror is set between the glass tube laser and the probe；The central rack is equipped with electrical cabinet, and the side of the electrical cabinet is equipped with metal tube laser device, and one end of the metal tube laser device extends upwardly to the mounting base bottom and is connected to the mounting groove；The metal tube laser device and the rotating mirror are on same vertical direction；The present invention is cooperated by metal tube laser device and glass tube laser, is improved work efficiency, is reduced costs and applied widely.

Description

A kind of twin-laser marking equipment of optimization

Technical field

The present invention relates to laser marking device fields, and in particular to a kind of twin-laser marking equipment of optimization.

Background technique

Laser marking machine is the light for combining laser technology and computer technology, electromechanical integration equipment.Laser marking skill Art at present at home and abroad just gradually paid attention to by people by industrial application, and various novel marking equipments emerge one after another, it is with it Unique advantage is replacing traditional labeling method, can various component of machine, electronic component, integrated circuit modules, On a variety of body surfaces such as instrument, instrument, label is printed.

Its working principle is that laser generates laser, after focusing lens focus, then it is irradiated to the surface of mark object, Only just there is when mark object is located at focal position ideal mark effect.

Chinese patent (CN20390196U) discloses a kind of double-ended laser marking machine, including laser, rack, described swashs The lifting device of light device, is provided with controller in the rack, the laser include the optical bench being fixed on lifting device, Labelling head connects square chest and two sets of laser scanning heads；The labelling head connection square chest connects the optical bench and laser scanning head, It is internally provided with two total reflective mirrors, the laser reflection that described two total reflective mirrors issue the optical bench to another laser scanning Head.

Glass tube laser can nonmetallic materials mark/marking/engraving/cutting to 80%, but glass tube laser valence Lattice are low, and the service life is shorter, and general half a year replacement is primary, not reproducible use.Metal tube laser device speed is fast, and stability is strong, can fill Gas is reused, and the service life 6 years or more, can be beaten all nonmetallic and part metals material mark/marking/engraving/cuttings It is smooth, fine and smooth, uniform to mark effect.But several times more expensive than glass tube of price.

If glass tube laser and metal tube laser device arranged in pairs or groups, it is compatible with cost and working effect, simultaneously Keep the adaptation range of machine wider, is able to satisfy different requirements.

Summary of the invention

It is an object of the invention to overcome above-mentioned the deficiencies in the prior art, a kind of raising working efficiency is provided, reduces cost, Wide adaptation range and be able to satisfy different requirements optimization twin-laser marking equipment.

In order to achieve the above objectives, technical solution of the present invention is accomplished by a kind of twin-laser marking equipment of optimization, packet Including rack, the top of the rack are equipped with mounting base, and the mounting base is recessed inwardly equipped with mounting groove, and the mounting groove is to described Mounting base both ends extend；One end of the mounting base is equipped with the glass tube laser to extend internally, and the other end of the rack is set There is probe；

The side that the rack is located at probe is equipped with the mark board for placing object up to standard, and the mark board is equipped with For adjusting the lifting platform of the distance between mark object and probe；

The probe includes several mirror lens, for changing the direction of mark laser, makes mark laser towards mark Board projects；

The mounting base is equipped with reflection subassembly, and the reflection subassembly includes the rotating mirror of rotation setting, the rotation Turn reflecting mirror to be set between the glass tube laser and the probe；

The central rack is equipped with electrical cabinet, and the electrical cabinet is equipped with metal tube laser close to the side of the mark board Device, metal tube laser device one end extend upwardly to the mounting base bottom and are connected to the mounting groove；The metal tube Laser and the reflecting mirror are on same vertical direction；

When it is the first set angle that the rotating mirror, which is turned to the angle of horizontal plane, the metal tube laser device Operating emission first laser, the first laser are reflected into probe by rotating mirror, realize mark operation；When the rotation Turn reflecting mirror to turn to the angle of horizontal plane when being the second set angle, the glass tube laser works transmitting second swashs Light, the second laser are directly incident on probe, realize mark operation.

Preferably, the reflection subassembly further includes fixed block, and the fixed block is fixedly connected in such a way that screw punches In the mounting base, the fixed block is between the glass tube laser and probe；It hangs down one end of the fixed block It is straight to be equipped with fixed bracket, it is connected with rotatable electromagnet on the fixed bracket, is connected with reflecting mirror on the rotating electromagnet Fixed frame, the reflecting mirror fixed frame are equipped with the first circular through hole, and it is round logical that the rotating mirror is mounted on described first Maintain an equal level in hole and with the reflecting mirror fixed block one side.

Preferably, on the fixed block along the vertical direction be equipped with the second circular through hole, second circular through hole with it is described Metal tube laser device is on same vertical direction；The second laser passes through the second circular through hole and is incident to the rotating mirror On.

Preferably, the mark board is surrounded by baffle, is equipped with top plate, the baffle and the top above the baffle Hardened conjunction forms an accommodation space；The lifting platform is successively arranged placement plate, fixed plate and joystick from top to bottom；It is described to put Plate is set to be located above the mark board；The fixed plate is located in the accommodation space and is fixedly connected on the top plate, The opposite both ends of the fixed plate are movably equipped with several support rods on the position of proximal edge, and the support rod includes the first support Bar, second support bar, third support rod and the 4th support rod；The upper end of the first support bar and second support bar passes through described Fixed plate is connect by the first connecting plate with the placement plate；The upper end of the third support rod and the 4th support rod passes through described Fixed plate is connect by the second connecting plate with the placement plate.

Preferably, described joystick one end is movably connected on the mark board by link block；The joystick packet Include sequentially connected handle, driving portion, drive rod, interconnecting piece and drive rod；The handle and driving portion are arranged in the mark Outside board, the interconnecting piece is fixedly connected in the fixed plate；The mark board is located at the gear of the side of the joystick Plate is equipped with third circular through hole, and described drive rod one end is connect with the driving portion, and the other end is logical across the third circle Hole is connect with the interconnecting piece；The top plate of the mark board is equipped with the 4th circular through hole, and described drive rod one end passes through institute It states the 4th circular through hole to be fixedly connected with the placement plate, the other end passes through the interconnecting piece and is movably connected in the interconnecting piece On.

Preferably, the side of the mark board is equipped with console, and the console is for controlling mark operation and display Mark pattern.

Preferably, circuit board and controller are equipped in the electrical cabinet；The circuit board is connect with the controller；It is described Electrical cabinet side is equipped with several heat release holes, and the heat release hole includes the first heat release hole, the second heat release hole and third heat release hole.

Preferably, first set angle is 45 °；Second set angle is 135 °；The glass tube laser Using high-power glass tube laser；The metal tube laser device uses low power metal pipe laser；The metal tube laser On device along the vertical direction be equipped with several radiators, the radiator include the first radiator, the second radiator, third radiator and 4th radiator.

Preferably, the bottom of the rack is equipped with several support legs, and the support leg includes the first support leg, the second support Foot, third support leg and the 4th support leg；The mark machine bottom is equipped with the 5th support leg, the 6th support leg, the 7th support Foot and the 8th support leg.

Preferably, the mounting base is equipped with several mounting brackets, and the mounting bracket includes the first mounting bracket and the Two mounting brackets；The glass tube laser sequentially passes through the first mounting bracket and the second mounting bracket and is fixedly connected on described In first mounting bracket and the second mounting bracket.

Beneficial effect

Compared with prior art, what the present invention obtained has the beneficial effect that the present invention is equipped with metal tube laser device, glass tube swashs Light device, rotating mirror and probe, rotating mirror are rotated under the action of rotating electromagnet, when the rotary reflection When mirror turns at 45 ° with horizontal plane, the metal tube laser device operating emission first laser, the first laser passes through rotation Reflecting mirror is reflected into probe, realizes mark operation；When rotating mirror and horizontal plane are at 135 °, the glass tube laser Operating emission second laser, the second laser are directly incident on probe, realize mark operation；The present invention is swashed by metal tube Light device and glass tube laser are arranged in pairs or groups, and are improved work efficiency, are reduced costs, and wide adaptation range and are able to satisfy different uses It is required that.

Detailed description of the invention

Fig. 1 is a kind of overall structure diagram of the twin-laser marking equipment of optimization of the invention；

Fig. 2 is a kind of rearview of the twin-laser marking equipment of optimization of the invention；

Fig. 3 is a kind of mounting base of the twin-laser marking equipment of optimization of the invention and glass tube laser shows and metal The connection schematic diagram of pipe laser；

Fig. 4 is a kind of mounting base of the twin-laser marking equipment of optimization of the invention and glass tube laser shows and metal The front view of pipe laser connection；

Fig. 5 is a kind of reflection subassembly structural schematic diagram of the twin-laser marking equipment of optimization of the invention；

Fig. 6 is a kind of left view of the reflection subassembly of the twin-laser marking equipment of optimization of the invention；

Fig. 7 is a kind of structural schematic diagram of the lifting platform of the twin-laser marking equipment of optimization of the invention；

Fig. 8 is a kind of structural schematic diagram of the joystick of the twin-laser marking equipment of optimization of the invention；

Fig. 9 is a kind of front view of the joystick of the twin-laser marking equipment of optimization of the invention；

A kind of right view of the mark board of the twin-laser marking equipment of optimization Figure 10 of the invention；

A kind of top view of the mark board of the twin-laser marking equipment of optimization Figure 11 of the invention；

A kind of structural schematic diagram of the metal tube laser device of the twin-laser marking equipment of optimization Figure 12 of the invention.

Technical characteristic corresponding to label in attached drawing are as follows:

1- rack, the first support leg of 11-, the second support leg of 12-, 13- third support leg, the 4th support leg of 14-, 2- installation Seat, 21- mounting groove, the first mounting bracket of 22-, the second mounting bracket of 23-, 24- reflection subassembly, 241- fixed block, 2411- second Circular through hole, the fixed bracket of 242-, 243- rotating electromagnet, 244- reflecting mirror fixed frame, the first circular through hole of 2441-, 245- Rotating mirror, 25-U shape cover, 3- glass tube laser, 4- probe, 5- mark board, 51- baffle, 511- third circle are logical Hole, 52- top plate, the 4th circular through hole of 521-, the 5th support leg of 53-, the 6th support leg of 54-, the 7th support leg of 55-, 56- the 8th Support leg, 6- lifting platform, 61- placement plate, 62- fixed plate, 621- first support bar, 622- second support bar, 623- third branch Strut, the 4th support rod of 624-, 63- joystick, 631- handle, 632- driving portion, 633- drive rod, 634- interconnecting piece, 635- Drive rod, the first connecting plate of 65-, the second connecting plate of 66-, 7- electrical cabinet, the first heat release hole of 71-, the second heat release hole of 72-, 73- Three heat release holes, 8- metal tube laser device, the first radiator of 81-, the second radiator of 82-, 83- third radiator, 84- the 4th radiate Device, 9- console.

Specific embodiment

Specific embodiments of the present invention will be further explained with reference to the accompanying drawing.

As depicted in figs. 1 and 2, the top of the twin-laser marking equipment of a kind of optimization, including rack 1, the rack 1 is set There is mounting base 2, the mounting base 2 is recessed inwardly equipped with mounting groove 21, and the mounting groove 21 extends to 2 both ends of mounting base； One end of the mounting base 2 is equipped with the glass tube laser 3 to extend internally；

As shown in Figure 3 and Figure 4, the mounting base 2 is equipped with several mounting brackets, and the mounting bracket includes the first installation Bracket 22 and the second mounting bracket 23；The setting of first mounting bracket 22 and the second mounting bracket 23 is easily installed institute State 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 on institute It states in the first mounting bracket 22 and the second mounting bracket 23.

As depicted in figs. 1 and 2, the side that the mounting base 2 is located at the glass tube laser 3 is equipped with U-shaped cover 25, described One end of glass tube laser 3 is located in the U-shaped cover 25；

As depicted in figs. 1 and 2, the other end of the rack 1 is equipped with probe 4；

As depicted in figs. 1 and 2, the side that the rack 1 is located at probe 4 is equipped with the mark board for placing object up to standard 5, the mark board 5 is equipped with the lifting platform 6 for adjusting the distance between mark object and probe；

The probe 4 makes mark laser towards mark including several mirror lens for changing the direction of mark laser Board 5 projects；

As shown in Figures 1 to 6, the mounting base 2 is equipped with reflection subassembly 24, and the reflection subassembly 24 is set to the glass Between glass pipe laser 3 and the probe 4；The reflection subassembly 24 includes the rotating mirror 245 of rotation setting；

As shown in Figure 5 and Figure 6, the reflection subassembly 24 further includes fixed block 241, and the fixed block 241 is beaten by screw The mode in hole is connected in the mounting base 2, and the fixed block is between the glass tube laser and probe；It is described solid The one end for determining block 241 is vertically equipped with fixed bracket 242, and rotatable electromagnet 243 is connected on the fixed bracket 242, described Reflecting mirror fixed frame 244 is connected on rotating electromagnet 243, the reflecting mirror fixed frame 244 is equipped with the first circular through hole 2441, the reflecting mirror 245 is mounted in first circular through hole 2441 and holds with 244 one side of reflecting mirror fixed frame It is flat.

As shown in Figure 5 and Figure 8, on the fixed block 241 along the vertical direction be equipped with the second circular through hole 2411, described second Circular through hole 2411 and the metal tube laser device 3 are on same vertical direction；The second laser passes through the second circular through hole 2411 are incident on the rotating mirror 245.

As depicted in figs. 1 and 2, electrical cabinet 7, the close mark board of the electrical cabinet 7 are equipped in the middle part of the rack 1 5 sides be equipped with metal tube laser device 8, described 8 one end of metal tube laser device extend upwardly to 2 bottom of mounting base and with it is described Mounting groove 21 is connected to；The metal tube laser device 8 is with the reflecting mirror 244 on same vertical direction；

As shown in figure 12, several radiators are equipped on the metal tube laser device 8 along the vertical direction, the radiator includes First radiator 81, the second radiator 82, third radiator 83 and the 4th radiator 84；First radiator 81, second dissipates The setting of hot device 82, third radiator 83 and the 4th radiator 84 is convenient for radiating for the metal tube laser device 8.

As depicted in figs. 1 and 2, the bottom of the rack 1 is equipped with several support legs, and the support leg includes the first support leg 12, the second support leg 13, third support leg 14 and the 4th support leg 15；First support leg 12, the second support leg 13, third The setting of support leg 14 and the 4th support leg 15 rack 1 easy to support.

As shown in Figure 9 and Figure 10, the mark board 5 is surrounded by baffle 51, is equipped with top plate 52 above the baffle 51, The baffle 51 and the top plate 52, which combine, forms an accommodation space；

As shown in Figure 1, Figure 2, shown in Fig. 9 and Figure 10,5 bottom of mark board is equipped with the 5th support leg 53, the 6th support leg 51, the 7th support leg 55 and the 8th support leg 56.5th support leg 53, the 6th support leg 54, the 7th support leg 55 and The setting of the eight support legs 56 mark board 5 easy to support.

As shown in fig. 7, the lifting platform 6 is successively arranged placement plate 61, fixed plate 62 and joystick 63 from top to bottom；It is described Placement plate 61 is located at 5 top of mark board；The fixed plate 62 is located in the accommodation space and is fixedly connected on described On top plate 52, the opposite both ends of the fixed plate 62 are movably equipped with several support rods, the support rod on the position of proximal edge Including first support bar 621, second support bar 622, third support rod 623 and the 4th support rod 624；The first support bar 621 and the upper end of second support bar 622 pass through the fixed plate 62 and connect with the placement plate 61 by the first connecting plate 65；Institute It is put by the second connecting plate 66 with described across the fixed plate 62 upper end for stating third support rod 623 and the 4th support rod 624 Set the connection of plate 61.

As shown in Figure 8 and Figure 9, described 63 one end of joystick is movably connected on the mark board by link block 57； The joystick 63 includes sequentially connected handle 631, driving portion 632, drive rod 633, interconnecting piece 634 and drive rod 635；Institute It states handle 631 and driving portion 632 is arranged outside the mark board 5, the interconnecting piece 634 is fixedly connected on the fixed plate 62 On；The baffle 51 that the mark board is located at the joystick side is equipped with third circular through hole 511, the drive rod 633 One end is connect with the driving portion 632, and the other end passes through the third circular through hole 511 and connect with the interconnecting piece 634；It is described The top plate 52 of mark board 5 is equipped with the 4th circular through hole 521, and described 635 one end of drive rod passes through the 4th circular through hole 521 are fixedly connected with the placement plate 61, and the other end passes through the interconnecting piece 634 and is movably connected on the interconnecting piece 634.

As depicted in figs. 1 and 2, the side of the mark board 5 is equipped with console 9, and the console 9 is for controlling mark Operation and display mark pattern.

Circuit board (not drawing in attached drawing) and controller (not drawing in attached drawing) are equipped in the electrical cabinet 7；It is described Circuit board is connect with the controller.

As shown in Fig. 2, 7 side of electrical cabinet is equipped with several heat release holes, the heat release hole includes the first heat release hole 71, the Two heat release holes 72 and third heat release hole 73.The setting of first heat release hole 71, the second heat release hole 72 and third heat release hole 73 is just It radiates in for the electrical cabinet 7.

The glass tube laser 3 uses high-power glass tube laser, and the metal tube laser device 8 is using small-power gold Belong to pipe laser.The collocation of high-power glass tube laser and low power metal pipe laser can effectively extend the glass tube The service life of laser 3 and metal tube laser device 8, meanwhile, it improves work efficiency, reduce costs and is applied widely, It is able to satisfy different requirements.

When it is the first set angle that the rotating mirror 245, which is turned to the angle of horizontal plane, i.e., described first sets When to determine angle be 45 °, the metal tube laser device 3 works；When the angle of rotating mirror 245 and horizontal plane is the second set angle When spending, i.e., when described second set angle is 135 °, the glass tube laser 8 works.

The course of work of the invention is detailed below:

The rotating mirror 245 is rotated under the drive of the rotating electromagnet 242, when the rotating mirror 245 when turning at 45 ° with horizontal plane, and the 3 operating emission first laser of metal tube laser device, the first laser passes through institute It states rotating mirror 244 and is reflected into the probe 4, realize mark operation；When the rotating mirror 245 turns to and level When face is at 135 °, the 8 operating emission second laser of glass tube laser, the second laser is directly incident on the probe 4, realize mark operation.

The above, the only specific embodiment of the application, but the protection scope of the application is not limited thereto, it is any Change or replacement within the technical scope of the present application should all be covered within the scope of protection of this application.Therefore, this Shen Protection scope please should be subject to the protection scope in claims；According to the disclosure and teachings of the above specification, institute of the present invention The technical staff in category field can also change and modify the above embodiment.Therefore, the invention is not limited to above Some modifications and changes of invention should also be as falling into the guarantor of claim of the invention by the specific embodiment for disclosing and describing It protects in range.In addition, these terms are merely for convenience of description although using some specific terms in this specification, It does not limit the present invention in any way.

Claims (10)

1. a kind of twin-laser marking equipment of optimization, which is characterized in that including rack, the top of the rack is equipped with installation Seat, the mounting base are recessed inwardly equipped with mounting groove, and the mounting groove extends to the mounting base both ends；The one of the mounting base End is equipped with the glass tube laser to extend internally, and the other end of the rack is equipped with probe；

The side that the rack is located at probe is equipped with the mark board for placing mark object, and the mark board, which is equipped with, to be used In the lifting platform for adjusting the distance between mark object and described probe；

The probe includes several mirror lens, for changing the direction of mark laser, makes mark laser towards mark board It projects；

The mounting base is equipped with reflection subassembly, the reflection subassembly be set to the glass tube laser and the probe it Between；The reflection subassembly includes the rotating mirror of rotation setting；

The central rack is equipped with electrical cabinet, and the electrical cabinet is equipped with metal tube laser device close to the side of the mark board, Metal tube laser device one end extends upwardly to the mounting base bottom and is connected to the mounting groove；The metal tube laser Device and the reflecting mirror are on same vertical direction；

When it is the first set angle that the rotating mirror, which is turned to the angle of horizontal plane, the metal tube laser device work Emit first laser, the first laser is reflected into probe by rotating mirror, realizes mark operation；When the rotation is anti- It penetrates mirror to turn to the angle of horizontal plane when being the second set angle, the glass tube laser works emit second laser, institute It states second laser and is directly incident on probe, realize mark operation.

2. a kind of twin-laser marking equipment of optimization according to claim 1, it is characterised in that: the reflection subassembly is also Including fixed block, the fixed block is fixedly connected in the mounting base in such a way that screw punches, and the fixed block is located at Between the glass tube laser and probe；One end of the fixed block is vertically equipped with fixed bracket, on the fixed bracket It is connected with rotating electromagnet, is connected with reflecting mirror fixed frame on the rotating electromagnet, the reflecting mirror fixed frame is equipped with the One circular through hole, the rotating mirror are mounted in first circular through hole and hold with the reflecting mirror fixed block one side It is flat.

3. a kind of twin-laser marking equipment of optimization according to claim 2, which is characterized in that edge on the fixed block Vertical direction is equipped with the second circular through hole, and second circular through hole and the metal tube laser device are on same vertical direction； The second laser passes through the second circular through hole and is incident on the rotating mirror.

4. a kind of twin-laser marking equipment of optimization according to claim 1, it is characterised in that: the mark board four It is equipped with baffle week, top plate is equipped with above the baffle, the baffle and the top plate, which combine, forms an accommodation space；The liter Drop platform is successively arranged placement plate, fixed plate and joystick from top to bottom；The placement plate is located above the mark board；It is described Fixed plate is located in the accommodation space and is fixedly connected on the top plate, and the opposite both ends of the fixed plate are by proximal edge Several support rods are movably equipped on position, the support rod includes first support bar, second support bar, third support rod and the 4th Support rod；The upper end of the first support bar and second support bar passes through the fixed plate and passes through the first connecting plate and the placement Plate connection；The upper end of the third support rod and the 4th support rod passes through the fixed plate and passes through the second connecting plate and the placement Plate connection.

5. a kind of twin-laser marking equipment of optimization according to claim 4, it is characterised in that: described joystick one end It is movably connected on the mark board by link block；The joystick includes sequentially connected handle, driving portion, driving Bar, interconnecting piece and drive rod；The handle and driving portion are arranged outside the mark board, and the interconnecting piece is fixedly connected on institute It states in fixed plate；The baffle that the mark board is located at the side of the joystick is equipped with third circular through hole, the driving Bar one end is connect with the driving portion, and the other end passes through the third circular through hole and connect with the interconnecting piece；The marking machine The top plate of platform is equipped with the 4th circular through hole, and described drive rod one end passes through the 4th circular through hole and fixes with the placement plate Connection, the other end pass through the interconnecting piece and are movably connected on the interconnecting piece.

6. a kind of twin-laser marking equipment of optimization according to claim 1, it is characterised in that: the mark board Side is equipped with console, and the console is for controlling mark operation and display mark pattern.

7. a kind of twin-laser marking equipment of optimization according to claim 1, which is characterized in that set in the electrical cabinet There are circuit board and controller；The circuit board is connect with the controller；The electrical cabinet side is equipped with several heat release holes, described Heat release hole includes the first heat release hole, the second heat release hole and third heat release hole.

8. a kind of twin-laser marking equipment of optimization according to claim 1, which is characterized in that first set angle Degree is 45 °；Second set angle is 135 °；The glass tube laser uses high-power glass tube laser；The gold Belong to pipe laser and uses low power metal pipe laser；Several radiators are equipped on the metal tube laser device along the vertical direction, The radiator includes the first radiator, the second radiator, third radiator and the 4th radiator.

9. a kind of twin-laser marking equipment of optimization according to claim 1, which is characterized in that the bottom of the rack Equipped with several support legs, the support leg includes the first support leg, the second support leg, third support leg and the 4th support leg；Institute Mark machine bottom is stated equipped with the 5th support leg, the 6th support leg, the 7th support leg and the 8th support leg.

10. a kind of twin-laser marking equipment of optimization according to claim 1, which is characterized in that in the mounting base Equipped with several mounting brackets, the mounting bracket includes the first mounting bracket and the second mounting bracket；The glass tube laser It sequentially passes through the first mounting bracket and the second mounting bracket and is fixedly connected on first mounting bracket and the second mounting bracket On.