CN106001922A

CN106001922A - Laser welding machine

Info

Publication number: CN106001922A
Application number: CN201610557643.5A
Authority: CN
Inventors: 王思来
Original assignee: Dongguan Huanya Laser Technology Co Ltd
Current assignee: Dongguan Huanya Laser Technology Co Ltd
Priority date: 2016-07-15
Filing date: 2016-07-15
Publication date: 2016-10-12

Abstract

The invention discloses a laser welding machine. The laser welding machine comprises a rack, wherein an electric cabinet is arranged in the rack; a lifting mechanism is arranged on the rack; a welding light path system is arranged on the lifting mechanism; the welding light path system comprises an optical platform, a laser transmitter, a galvanometer support, a Y galvanometer, an X galvanometer, a circuit board and an optical lens group; the optical platform is arranged at the top end of the lifting mechanism; the laser transmitter is arranged in the optical platform; the galvanometer support is arranged on one side of a transmitting end of the laser transmitter; the Y galvanometer is arranged at the top of the galvanometer support; the X galvanometer is arranged on a side plate of the galvanometer support; a window is arranged in the position, below the galvanometer support, on the optical platform; the optical lens group is arranged at the bottom of the optical platform; the circuit board is fixed in the optical platform; and the circuit board is electrically connected with the laser transmitter. According to the laser welding machine, the structure is simple and reasonable, the design in ingenious, the automation degree is high, the welding efficiency and product quality are improved, the welding quality is stable and reliable, the defect rate of a product is decreased, and the production cost is reduced.

Description

Laser-beam welding machine

Technical field

The present invention relates to bonding machine, particularly to a kind of laser-beam welding machine for ceramic condenser welding.

Background technology

With writing the widely available of 3C digital product and using, 3C Product just develops towards the direction of Highgrade integration, the volume of its internal electronic devices and components is more and more less, requirement to solder technology is more and more higher, traditional manual welding and wave-soldering have diversified deficiency and shortcoming, and manual welding needs substantial amounts of personnel to weld for a long time, and production efficiency is low, quality is uneven, and homogeneity of product is difficult to ensure that；Wave-soldering is to allow the solder side of card directly contact with high-temperature liquid state stannum reach to weld purpose, is the technology of an electric energy height consumption, and needs technical professional to carry out operation and maintenance.The principle of laser-beam welding machine is the local heating utilizing high-octane laser pulse to carry out in tiny area to material, the energy of laser emission passes through the conduction of heat diffusion inside to material, a kind of product in specific molten bath will be formed after melt material, it can carry out synchronization job together in conjunction with automatic production line, has the biggest motility.

At present, the most less laser-beam welding machine, and, these laser-beam welding machines existing, the design of its structure is not reasonable perfect, and volume is bigger, inefficiency, automaticity is low, and welding quality is poor, electrically heated mode is used to do energy consumption, production cost is high, it is difficult to meeting and use needs, the laser-beam welding machine of the present invention is mainly used to the electronic devices and components pins such as welding ceramics electric capacity, improve production efficiency, reduce energy consumption.

Summary of the invention

It is an object of the invention to, for the problems referred to above, it is provided that a kind of laser-beam welding machine.

The technical scheme that the present invention is used for achieving the above object is:

nullA kind of laser-beam welding machine，It includes frame，It is provided with regulator cubicle in described frame，It is provided with elevating mechanism in described frame，It is provided with welding light path system in described elevating mechanism，Described welding light path system includes optical table、Generating laser、Galvanometer bearing、Y galvanometer、X galvanometer、Circuit board and optical lens group，Described optical table is horizontally set at the top of this elevating mechanism，Described generating laser is horizontally set in this optical table，This galvanometer bearing is arranged at the exit end side of this generating laser，Described Y galvanometer is to the exit end of generating laser being longitudinally disposed at the top of this galvanometer bearing，This X galvanometer is to should the exit end of generating laser be horizontally set on the side plate of this galvanometer bearing，Below this galvanometer bearing, it is provided with window on this optical table，Described optical lens group is to being arranged at the bottom of this optical table by window，Described circuit board is fixed in this optical table，This circuit board electrically connects with described generating laser.

Described regulator cubicle includes casing, it is provided with installing plate in this casing, Switching Power Supply, power supply device and control card it is fixed with on described installing plate, it is additionally provided with laser instrument in this casing, this laser instrument is electrically connected with the described card that controls by connection, described laser instrument, Switching Power Supply, power supply device with described generating laser.

Described regulator cubicle also includes fuse, air switch, surge switch and PG joint, described fuse, air switch and surge switch are juxtaposed on the front side board of this casing, this PG joint is arranged at this fuse, air switch and the lower section of surge switch, described fuse, air switch, surge switch and PG joint and electrically connects with the described card that controls.

Described optical lens group includes the first camera lens and the second camera lens, and this first camera lens is arranged at the top of this second camera lens, and described first camera lens passes through field lens Flange joint in the bottom of described optical table.

Described elevating mechanism includes lifting pedestal and lift cylinder, described lifting pedestal is fixed on the top of this frame, the cylinder axis of described lift cylinder is down arranged on this lifting pedestal, the cylinder axis end of this lift cylinder is fixing with this lifting pedestal to be connected, the most longitudinally it is provided with lifter slide on described lifting pedestal, this lifter slide is provided with lifting chute, and on the outer wall of this lift cylinder, corresponding described lifting chute is provided with slide block, and described slide block can slide up and down to be arranged in this lifting chute.

Described lifter slide is two, and these two lifter slides are individually fixed on the two side that this lifting pedestal is corresponding, are provided with two lifting chutes on described lifter slide side by side, are respectively equipped with two slide blocks on corresponding two outer walls of described lift cylinder.

The top of described frame is to optical lens group being provided with workbench；

Being additionally provided with some radiator fans in described casing, this radiator fan is arranged on the back side panel of this casing, and this radiator fan electrically connects with the described card that controls；

It is also arranged above optical fiber wire outlet seat in this PG joint.

It also includes touching display screen, and this touch display screen is fixed on the top of this frame, and this touch display screen electrically connects with the described card that controls.

Described generating laser is cylinder, and the inside bottom surface of described optical table is provided with emitter bearing, and this emitter bearing is transversely provided with emitter flexible fastening button, and described generating laser is placed in this emitter flexible fastening and smashs.

Described galvanometer bearing is formed in one, to being provided with X-axis flexible fastening button by X galvanometer on this galvanometer bearing, to being provided with Y-axis flexible fastening button by Y galvanometer.

The invention have the benefit that present configuration advantages of simple, design ingenious, stable and reliable working performance, automaticity is high, is welded 3C Product internal structure or spot welding by laser, thus improve the efficiency of welding and the quality of product, being effectively improved production efficiency, compare traditional welding manner, its welding quality stable is reliable, reduce product fraction defective, reduce production cost.

Below in conjunction with the accompanying drawings with embodiment, the present invention is further described.

Accompanying drawing explanation

Fig. 1 is the perspective view of the present invention；

Fig. 2 is the perspective view welding light path system in the present invention；

Fig. 3 is the internal structure schematic diagram welding light path system in the present invention；

Fig. 4 is the perspective view of regulator cubicle in the present invention；

Fig. 5 is the internal structure schematic diagram of regulator cubicle in the present invention；

Fig. 6 is the structural representation of optical lens group in the present invention；

Fig. 7 is the structural representation of elevating mechanism in the present invention.

Detailed description of the invention

nullEmbodiment: as shown in Figures 1 to 7，One laser-beam welding machine of the present invention，It includes frame 1，It is provided with regulator cubicle 2 in described frame 1，It is provided with elevating mechanism 3 in described frame 1，It is provided with welding light path system 4 in described elevating mechanism 3，Described welding light path system 4 includes optical table 41、Generating laser 42、Galvanometer bearing 43、Y galvanometer 44、X galvanometer 45、Circuit board 46 and optical lens group 47，Described optical table 41 is horizontally set at the top of this elevating mechanism 3，Described generating laser 42 is horizontally set in this optical table 41，This galvanometer bearing 43 is arranged at the exit end side of this generating laser 42，Described Y galvanometer 44 is to the exit end of generating laser 42 being longitudinally disposed at the top of this galvanometer bearing 43，This X galvanometer 45 is to should the exit end of generating laser 42 be horizontally set on the side plate of this galvanometer bearing 43，Below this galvanometer bearing 43, it is provided with window 411 on this optical table 41，Described optical lens group 47 is to being arranged at the bottom of this optical table 41 by window 411，Described circuit board 46 is fixed in this optical table 41，This circuit board 46 electrically connects with described generating laser 42.

Described regulator cubicle 2 includes casing 21, it is provided with installing plate 22 in this casing 21, it is fixed with Switching Power Supply 23, power supply device 24 on described installing plate 22 and controls card 25, it is additionally provided with laser instrument 26 in this casing 21, this laser instrument 26 is connected by circuit 5 with described generating laser 42, and described laser instrument 26, Switching Power Supply 23, power supply device 24 electrically connect with the described card 25 that controls.

Described regulator cubicle 2 also includes that fuse 27, air switch 28, surge switch 29 and PG joints 210, described fuse 27, air switch 28 and surge switch 29 are juxtaposed on the front side board of this casing 21, this PG joint 210 is arranged at this fuse 27, air switch 28 and the lower section of surge switch 29, and described fuse 27, air switch 28, surge switch 29 and PG joints 210 electrically connect with the described card 25 that controls.

Described optical lens group 47 includes the first camera lens 471 and the second camera lens 472, and this first camera lens 471 is arranged at the top of this second camera lens 472, and described first camera lens 471 is connected to the bottom of described optical table 41 by field lens flange 473.

Described elevating mechanism 3 includes lifting pedestal 31 and lift cylinder 32, described lifting pedestal 31 is fixed on the top of this frame 1, the cylinder axis of described lift cylinder 32 is down arranged on this lifting pedestal 31, the cylinder axis end of this lift cylinder 32 is fixed with this lifting pedestal 31 and is connected, the most longitudinally it is provided with lifter slide 33 on described lifting pedestal 31, this lifter slide 33 is provided with lifting chute 331, on the outer wall of this lift cylinder 32, corresponding described lifting chute 331 is provided with slide block 321, and described slide block 321 can slide up and down to be arranged in this lifting chute 331.By controlling the lifting of lift cylinder 32 such that it is able to adjust the height of the welding light path system 4 being fixed on elevating mechanism 3 top.

Described lifter slide 33 is two, these two lifter slides 33 are individually fixed on the two side that this lifting pedestal 31 is corresponding, on described lifter slide 33, it is provided with two lifting chutes 331 side by side, on corresponding two outer walls of described lift cylinder 32, is respectively equipped with two slide blocks 321.

The top of described frame 1 is to optical lens group 47 being provided with workbench 11；

Being additionally provided with some radiator fans 211 in described casing 21, this radiator fan 211 is arranged on the back side panel of this casing 21, and this radiator fan 211 electrically connects with the described card 25 that controls；

It is also arranged above optical fiber wire outlet seat in this PG joint 210.

It also includes touching display screen 6, and this touch display screen 6 is fixed on the top of this frame 1, and this touch display screen 6 electrically connects with the described card 25 that controls.

Described generating laser 42 is cylinder, and the inside bottom surface of described optical table 41 is provided with emitter bearing 48, and this emitter bearing 48 is transversely provided with emitter flexible fastening button 481, and described generating laser 42 is placed in this emitter flexible fastening button 481.

Described galvanometer bearing 43 is formed in one, to being provided with X-axis flexible fastening button 431 by X galvanometer 45 on this galvanometer bearing 43, to being provided with Y-axis flexible fastening button 432 by Y galvanometer 44.

In use, it would be desirable to the product of welding is placed on workbench 11, laser instrument 26, generating laser 42 work, and laser beam is penetrated by optical lens group 47, thus the product being placed on workbench 11 is carried out weld job.

Present configuration advantages of simple, design ingenious, stable and reliable working performance, automaticity is high, is welded 3C Product internal structure or spot welding by laser, thus improve the efficiency of welding and the quality of product, being effectively improved production efficiency, compare traditional welding manner, its welding quality stable is reliable, reduce product fraction defective, reduce production cost.

The above, be only presently preferred embodiments of the present invention, and the present invention not makees any pro forma restriction.Any those of ordinary skill in the art, without departing under technical solution of the present invention ambit, technical solution of the present invention is made many possible variations and modification by the method and the technology contents that all may utilize the disclosure above, or is revised as the Equivalent embodiments of equivalent variations.Therefore every content without departing from technical solution of the present invention, the equivalence change made according to the shape of the present invention, structure and principle, all should be covered by protection scope of the present invention.

Claims

null1. a laser-beam welding machine，It includes frame，It is characterized in that: in described frame, be provided with regulator cubicle，It is provided with elevating mechanism in described frame，It is provided with welding light path system in described elevating mechanism，Described welding light path system includes optical table、Generating laser、Galvanometer bearing、Y galvanometer、X galvanometer、Circuit board and optical lens group，Described optical table is horizontally set at the top of this elevating mechanism，Described generating laser is horizontally set in this optical table，This galvanometer bearing is arranged at the exit end side of this generating laser，Described Y galvanometer is to the exit end of generating laser being longitudinally disposed at the top of this galvanometer bearing，This X galvanometer is to should the exit end of generating laser be horizontally set on the side plate of this galvanometer bearing，Below this galvanometer bearing, it is provided with window on this optical table，Described optical lens group is to being arranged at the bottom of this optical table by window，Described circuit board is fixed in this optical table，This circuit board electrically connects with described generating laser.
Laser-beam welding machine the most according to claim 1, it is characterized in that, described regulator cubicle includes casing, it is provided with installing plate in this casing, Switching Power Supply, power supply device and control card it is fixed with on described installing plate, being additionally provided with laser instrument in this casing, this laser instrument is electrically connected with the described card that controls by connection, described laser instrument, Switching Power Supply, power supply device with described generating laser.
Laser-beam welding machine the most according to claim 2, it is characterized in that, described regulator cubicle also includes fuse, air switch, surge switch and PG joint, described fuse, air switch and surge switch are juxtaposed on the front side board of this casing, this PG joint is arranged at this fuse, air switch and the lower section of surge switch, described fuse, air switch, surge switch and PG joint and electrically connects with the described card that controls.
The most according to claim 1, laser-beam welding machine, it is characterised in that described optical lens group includes the first camera lens and the second camera lens, this first camera lens is arranged at the top of this second camera lens, and described first camera lens passes through field lens Flange joint in the bottom of described optical table.
Laser-beam welding machine the most according to claim 1, it is characterized in that, described elevating mechanism includes lifting pedestal and lift cylinder, described lifting pedestal is fixed on the top of this frame, the cylinder axis of described lift cylinder is down arranged on this lifting pedestal, the cylinder axis end of this lift cylinder is fixing with this lifting pedestal to be connected, the most longitudinally it is provided with lifter slide on described lifting pedestal, this lifter slide is provided with lifting chute, on the outer wall of this lift cylinder, corresponding described lifting chute is provided with slide block, and described slide block can slide up and down to be arranged in this lifting chute.
Laser-beam welding machine the most according to claim 5, it is characterized in that, described lifter slide is two, these two lifter slides are individually fixed on the two side that this lifting pedestal is corresponding, on described lifter slide, it is provided with two lifting chutes side by side, on corresponding two outer walls of described lift cylinder, is respectively equipped with two slide blocks.
Laser-beam welding machine the most according to claim 3, it is characterised in that the top of described frame is to optical lens group being provided with workbench；

Being additionally provided with some radiator fans in described casing, this radiator fan is arranged on the back side panel of this casing, and this radiator fan electrically connects with the described card that controls；

It is also arranged above optical fiber wire outlet seat in this PG joint.
The most according to claim 2, laser-beam welding machine, it is characterised in that it also includes touching display screen, and this touch display screen is fixed on the top of this frame, this touch display screen electrically connects with the described card that controls.
Laser-beam welding machine the most according to claim 1, it is characterized in that, described generating laser is cylinder, the inside bottom surface of described optical table is provided with emitter bearing, being transversely provided with emitter flexible fastening button on this emitter bearing, described generating laser is placed in this emitter flexible fastening and smashs.
The most according to claim 1, laser-beam welding machine, it is characterised in that described galvanometer bearing is formed in one, to being provided with X-axis flexible fastening button by X galvanometer on this galvanometer bearing, to being provided with Y-axis flexible fastening button by Y galvanometer.