CN204248217U - Laser mirror light source conversion mechanism - Google Patents

Abstract

The utility model provides a laser mirror conversion light source mechanism for carry out laser beam machining to the both sides of an object, it includes: the laser engraving device comprises a laser generator, a switching unit, a plurality of upper reflectors, a plurality of lower reflectors, an upper engraving optical module and a lower engraving optical module. The laser generator generates a laser beam. The switching unit switches at least one switching reflector in a rotating mode, the switching reflector reflects a laser beam in a state of a first rotating angle, the laser beam is reflected to the upper carving optical module through the at least one upper reflector, a first surface of an object is carved by focusing of the upper carving optical module, the switching reflector reflects the laser beam in a state of a second rotating angle, the laser beam is reflected to the lower carving optical module through the at least one lower reflector, and a second surface of the object is carved by focusing of the lower carving optical module.

Description

Laser mirror converted light source mechanism

Technical field

The utility model relates to a kind of laser processing device, particularly a kind ofly can carry out by the both sides of an object laser processing device processed.

Background technology

Existing laser processing device is generally by arranging multiple speculum, and the laser beam produced by laser generator reflexes on the object for processing, as a pcb board, to reach the object of carrying out Laser Processing on object through the mode of reflection.Wherein, travel mechanism can be coordinated to move the position of those speculums, to adjust, laser beam is counter establishes the position be reflected onto on object to be processed.

Only, laser processing device provided on the market at present, only can reflex to the side of object to be processed by laser beam, and in other words, existing laser processing device only can carry out Laser Processing to a side of object.When the both sides of object all need Laser Processing, device must first stop by operator, with artificial or mechanical system by object turn-over to be processed, could process the second surface of object.This kind of existing laser processing device adds man-hour all needing the object processed to both sides, and except needing longer process time, labor intensive more, adds the cost adding man-hour.

Utility model content

For the foregoing reasons, main purpose of the present utility model is to provide a kind of laser mirror converted light source mechanism, it can through the mode switched, select the first surface or the second surface that laser beam are reflexed to object to be processed, replace relying on artificial or machinery whereby by the existing laser processing device of object turn-over, shorten required process time.

Another object of the present utility model is to provide a kind of laser mirror converted light source mechanism, it arranges a switch unit, carry out switching operation by rotation mode, to select first surface laser beam being reflexed to object to be processed, or laser beam is reflexed to the second surface of object to be processed.

For reaching aforementioned object, the utility model provides a kind of laser converted light source mechanism, in order to carry out Laser Processing to an object, it comprises: optical module carved by a laser generator, a switch unit, multiple tops speculum, multiple belows speculum, one and carves optical module once.Described laser generator in order to produce a laser beam on a transmit direction.Described switch unit has at least one switched mirror and a power source; Wherein, power source drives this switched mirror to rotate in a rotative pattern, receive laser beam in this switched mirror of state of first anglec of rotation and laser beam is reflected toward a first direction, laser beam can be received in this switched mirror of state of second anglec of rotation and again laser beam be reflected toward a second direction.Described at least one top speculum arranges and receives this laser beam in a first direction, then above other this speculum laser beam is reflected engraving optical module on this, focused to a first surface of object by engraving optical module on this.Described at least one below speculum arranges and receives laser beam in a second direction, then speculum, laser beam to be reflexed to this lower engraving optical module, is focused to a second surface of this object by this lower engraving optical module below other this.

According to an embodiment of the present utility model, first direction and second direction are respectively perpendicular to the transmit direction of laser beam, and first direction is in a horizontal direction, and second direction is in a vertical direction.

According to an embodiment of the present utility model, multiple tops speculum comprise first above speculum above speculum and second, when laser beam by first above after speculum reflection, be reflected onto engraving optical module on this via speculum above second further.In addition, multiple belows speculum comprise first below speculum below speculum and the 3rd below speculum, second, when laser beam by first below speculum reflection after, sequentially below second, below speculum, the 3rd, speculum is reflected onto this lower engraving optical module.

According to an embodiment of the present utility model, above in the of first, above speculum and second, mirror arrangement is to move up in first party simultaneously, and above in the of second, mirror arrangement is can move up in the third party perpendicular to first direction.In addition, below second below speculum and the 3rd mirror arrangement for moving up in first party simultaneously, and below the 3rd mirror arrangement for can move up in third party.

According to an embodiment of the present utility model, switch unit has a switched mirror and power source, the direction of laser generator Emission Lasers light beam is pivot by this power source and this switched mirror, when this power source drives this switched mirror to rotate, in the state of first anglec of rotation and second anglec of rotation, laser beam is reflected onto this first direction and second direction respectively.

According to an embodiment of the present utility model, switch unit comprises multiple switched mirror and power source, multiple switched mirror comprises the first switched mirror and the second switched mirror, when power source drives multiple switched mirror to rotate in a rotative pattern, be receive laser beam reflect toward a first direction by laser beam from this first switched mirror in the state of first anglec of rotation, be from the second switched mirror reception laser beam in the state of second anglec of rotation and laser beam is reflected toward a second direction.

In addition, the utility model provides a kind of laser mirror converted light source mechanism, and it comprises: Duo Zu travel mechanism, is fixed on a pedestal; One laser generator, is fixed on pedestal, in order to produce a laser beam on a transmit direction; One switch unit, is fixed on pedestal, and described switch unit has at least one switched mirror and a power source; Wherein, power source drives this switched mirror to rotate in a rotative pattern, receive laser beam in this switched mirror of state of first anglec of rotation and laser beam is reflected toward a first direction, receiving laser beam in this switched mirror of state of second anglec of rotation and again laser beam is reflected toward a second direction; Multiple tops speculum, wherein a speculum above this to be arranged in one group of travel mechanism and configuration receives laser beam in a first direction, at least one speculum above this is installed by other travel mechanisms, the travel mechanism of rear stage is installed in the travel mechanism of previous stage, carve optical module to be reflexed on one by laser beam, carve by this glazing the first surface that optical module focuses to object; And multiple belows speculum, wherein this speculum below first, be fixed on pedestal, and configuration receives laser beam in a second direction, below other this, speculum to be arranged in one group of travel mechanism and to receive laser beam, square speculum at least is once installed by other travel mechanisms, the travel mechanism of rear stage is installed in the travel mechanism of previous stage, carve optical module to be reflexed to through multiple belows speculum by laser beam, focused to a second surface of object by this lower engraving optical module; Wherein, these travel mechanisms can move up first direction, second direction and the third party perpendicular to first direction.

According to an embodiment of the present utility model, multiple tops speculum comprise first above speculum above speculum and second, when laser beam by first above speculum reflection after, engraving optical module on this is reflected onto further via speculum above at least one second, the wherein part of this travel mechanism multiple is one first travel mechanism, one second travel mechanism and the 3rd travel mechanism, wherein the first travel mechanism is fixed on this pedestal, be responsible for driving this above first speculum move along first direction, above second travel mechanism responsible second, speculum moves along third direction, 3rd moving machine is then responsible for driving engraving optical module on this to do the movement of vertical direction.In addition, multiple belows speculum comprise first below speculum, speculum below second, and speculum below the 3rd, when laser beam by first below speculum reflection after, sequentially speculum below second, below 3rd, speculum is reflected onto this lower engraving optical module, the wherein part of this travel mechanism multiple is one the 4th travel mechanism, one the 5th travel mechanism and one the 6th travel mechanism, wherein the 4th travel mechanism is fixed on this pedestal, be responsible for driving this below second speculum move along first direction, below 5th travel mechanism the responsible 3rd, speculum moves along third direction, 6th moving machine is then responsible for driving this lower engraving optical module to do the movement of vertical direction.

According to an embodiment of the present utility model, above in the of first, above speculum and second, simultaneously speculum is configured to move up in first party by wherein one group of travel mechanism, and above in the of second mirror arrangement for can move up in third party.In addition, below second, below speculum and the 3rd, simultaneously speculum organizes travel mechanism by another to be configured to move up in first party, and below the 3rd mirror arrangement for can move up in third party.

According to an embodiment of the present utility model, switch unit comprises this switched mirror and this power source, the direction of this laser generator Emission Lasers light beam is pivot by this power source and this switched mirror, when this power source drives this switched mirror to rotate, in the state of first anglec of rotation and second anglec of rotation, laser beam is reflected onto this first direction and second direction respectively.

According to an embodiment of the present utility model, this switch unit comprises multiple switched mirror and this power source, multiple switched mirror comprises the first switched mirror and the second switched mirror, when this power source drives multiple switched mirror to rotate in a rotative pattern, be receive laser beam reflect toward a first direction by laser beam from this first switched mirror in the state of first anglec of rotation, be from the second switched mirror reception laser beam in the state of second anglec of rotation and laser beam is reflected toward a second direction.

Accompanying drawing explanation

Fig. 1 is that display is according to the laser mirror converted light source mechanism of the utility model one first embodiment and the stereogram of travel mechanism;

Fig. 2 is the laser mirror converted light source mechanism of display according to the utility model first embodiment, a laser beam is reflexed to the schematic diagram of object first surface;

Fig. 3 is the laser mirror converted light source mechanism of display according to the utility model first embodiment, laser beam is reflexed to the schematic diagram of object second surface;

Fig. 4 is that display is according to the laser mirror converted light source mechanism of the utility model one second embodiment and the stereogram of travel mechanism;

Fig. 5 is the laser mirror converted light source mechanism of display according to the utility model one second embodiment, laser beam is reflexed to the schematic diagram of object first surface; And

Fig. 6 is the laser mirror converted light source mechanism of display according to the utility model second embodiment, laser beam is reflexed to the schematic diagram of object second surface.

Description of reference numerals:

1 laser generator

11 beam expanding lens groups

2a switch unit

21 switched mirror

22 power sources

2b switch unit

21a first switched mirror

21b second switched mirror

23 revolving parts

Speculum above in the of 31 first

Speculum above in the of 32 second

Speculum below 41 first

Speculum below 42 second

Speculum below 43 the 3rd

5a carves optical module

Optical module is carved under 5b

50 speculum groups

51 scanning mirror groups

52 focus lamp groups

61 conveying mechanisms

62 first travel mechanisms

621 slide rails

63 second travel mechanisms

631 slide rails

64 the 3rd travel mechanisms

65 the 4th travel mechanisms

66 the 5th travel mechanisms

67 the 6th travel mechanisms

8 pedestals

9 objects

91 first surfaces

92 second surfaces

Detailed description of the invention

Below coordinate graphic and element numbers to do more detailed description to embodiment of the present utility model, the people haveing the knack of this skill can be implemented according to this after studying this description carefully.

Fig. 1 is that display is according to the laser mirror converted light source mechanism of one first embodiment of the present utility model and the stereogram of travel mechanism.Coordinating graphic being described for convenience, is a first direction by X-axis in FIG, vertical with first direction and Y-axis in same level is third direction, vertical with first direction but Z axis on same vertical plane is second direction.According to the laser mirror converted light source mechanism of the utility model first embodiment, be comprise: laser generator 1, switch unit 2a, multiple tops speculum, multiple belows speculum, carved optical module 5a, carve optical module 5b, a conveying mechanism 61 and multiple travel mechanism once.Multiple tops speculum comprise one first above speculum 32 above speculum 31,1 second.The plurality of below speculum comprise one first below speculum 43 below speculum 42 and the 3rd below speculum 41,1 second.Multiple travel mechanism comprises one first travel mechanism 67 of travel mechanism of travel mechanism of travel mechanism of travel mechanism of travel mechanism 62,1 second 63, the 3rd 64, the 4th 65, the 5th 66, the 6th, said modules is through pillar and is fixed on a pedestal 8, as shown in Figure 1.

Laser generator 1 in order to produce a laser beam on a transmit direction, and switch unit 2a is arranged on the transmission path of laser beam, in order to laser beam is reflexed to first direction or second direction.Through reflexing to the laser beam of first direction, further via speculum 32 secondary reflection again above speculum above first 31 and second, and focusing on through upper engraving optical module 5a, the first surface of an object is carved.Through reflexing to the laser beam of second direction, further via speculum 43 secondary reflection again below speculum 42 and the 3rd below speculum 41, second below first, and focusing on through lower engraving optical module 5b, the second surface of this object is carved.Wherein, two opposite faces up and down of object are first surface and second surface.

Described first travel mechanism 62 is fixed on pedestal 8, be responsible for driving this above first speculum 31 move along first direction, above second travel mechanism 63 responsible second, speculum 32 moves along third direction, 3rd moving machine 64 is responsible for driving engraving optical module 5a on this to do the movement of vertical direction, Tu Zhongsuo travel mechanism represents in sketch mode, only draw sled position, as slide rail 621, slide rail 631 etc., to understand moving direction, detailed mechanism is (as servo motor, interlock screw rod ...) to commonly use similar, therefore do not draw and do not elaborate yet.In the utility model, comparatively special character is: the travel mechanism of rear stage is installed in the travel mechanism of previous stage, such as the second travel mechanism 63 is installed in the first travel mechanism 62, when the first travel mechanism 62 drives the first speculum 31 to do first direction mobile, be positioned at the second travel mechanism 63 second above speculum 32 also move along first direction together.In addition, this speculum 32 and be positioned at and optical module 5a carves in the 3rd travel mechanism 64 also move along third direction above second when the second travel mechanism 63 moves.So when because of engraving, position must change upper engraving optical module 5a when, fixed laser generator 1, still can above switching mechanism 2a, first above speculum 31 and second speculum 32 by laser reflection to this on engraving optical module 5a place.

Below described first, speculum 41 is directly fixed on pedestal 8, in order to receive the laser beam being reflected onto second direction.The configuration of this and top speculum is similar, 4th travel mechanism 65 be responsible for driving this below second speculum 42 move along in first direction, below 5th travel mechanism 66 the responsible 3rd, speculum 43 moves along third direction, 6th moving machine 67 is responsible for driving this lower engraving optical module 5b to do the movement of vertical direction, and wherein the travel mechanism of rear stage is installed in the travel mechanism of previous stage.When so instantly carving optical module 5b position must change because of engraving, fixed laser generator 1, then can below switching mechanism 2a, first below speculum 41, second below speculum 42 and the 3rd speculum 43 by laser reflection to this lower engraving optical module 5b.In principle, carving operation is up and down independently carry out individually.Described conveying mechanism 61 is fixed on pedestal 8, for object to be processed is delivered to Working position.

In Fig. 2, Fig. 3, travel mechanism and conveying mechanism will be omitted, to be described in detail for the structure of switch unit 2a and the reflection path of switching mode and laser beam further.

Fig. 2 is the laser mirror converted light source mechanism according to the utility model first embodiment, laser beam is reflexed to the schematic diagram of object first surface, and Fig. 3 is the laser mirror converted light source mechanism of display according to the utility model first embodiment, laser beam is reflexed to the schematic diagram of object second surface.Laser mirror converted light source mechanism provided by the utility model, the reflection direction of the laser beam mainly produced through switch unit 2a switched laser generator 1, select first surface or the second surface that laser beam will be reflexed to object to be processed, to carry out Laser Processing according to demand whereby.Described switch unit 2a comprises switched mirror 21 and a power source 22.This power source 22 is a kind of device that this switched mirror 21 can be driven in a rotative pattern to rotate, and this power source 22 is a motor in the present embodiment, but not as limit, also can be cylinder or other can produce the mechanism of rotation.This switched mirror 21 is installed in output shaft one end of this power source 22 with special angle.The direction of laser generator Emission Lasers light beam is pivot by this power source 22 and this switched mirror 21, and this power source 22 can drive this switched mirror 21 to rotate, first anglec of rotation and second anglec of rotation is respectively, both angle intervals 90 degree in the driving angle of the present embodiment.

Of the present utility model graphic in, shown by dotted line is transmitting and the reflection path of laser beam.The shown schematic diagram for the switch unit 2a through the utility model first embodiment the laser beam that laser generator 1 produces being reflexed to the first surface 91 of object 9 in Fig. 2.As shown in Figure 1, laser generator 1 is positioned at outside the first surface 91 of object 9, and produces a laser beam with on a transmit direction in the past.Laser generator 1 is outside equipped with a beam expanding lens group 11, and laser beam is sent by the direction of this beam expanding lens group toward switch unit 2a.When the power source 22 of switch unit 2a drives described switched mirror 21 to be the state of first anglec of rotation, laser beam reflects toward first direction by described switched mirror 21.In the utility model, first direction is perpendicular to the transmit direction of described laser beam, and first direction is in a horizontal direction.Via the laser beam that switched mirror 21 reflects, upper engraving optical module 5a is reflected onto further via speculum 32 above speculum above first 31 and second, the first surface 91 being projected to object 9 is focused on, to carry out Laser Processing to the first surface 91 of object 9 by upper engraving optical module 5a.Upper engraving optical module 5a at least includes a speculum group 50, one scan mirror group 51 and a focus lamp group 52, this speculum group 50 by light reflection to scanning mirror group 51, adjusted the launching position of laser by scanning mirror group 51, coordinate this focus lamp group 52 focused laser beam, to carve.

The schematic diagram for the switch unit 2a through the utility model first embodiment the laser beam that laser generator 1 produces being reflexed to the second surface 92 of object 9 shown by Fig. 3.As shown in Figure 3, when operator needs to add man-hour to the second surface 92 of object 9, this switched mirror 21 can be driven to be the second angle state (i.e. 90-degree rotation), to be reflected toward second direction by laser beam through the power source 22 of switch unit 2a.In the utility model, second direction is perpendicular to the transmit direction of described laser beam, and second direction is in a vertical direction.Via the laser beam that switched mirror 21 reflects, it is speculum 41 below being first reflected onto first, lower engraving optical module 5b is reflexed to again via speculum 43 below speculum 42 and the 3rd below second, the second surface 92 being projected to described object 9 is focused on, to carry out Laser Processing to the second surface 92 of object 9 by lower engraving optical module 5b.Lower optics engraving module 5b equally at least includes speculum group 50, scanning mirror group 51 and focus lamp group 52, this speculum group 50 by light reflection to scanning mirror group 51, adjusted the launching position of laser by scanning mirror group 51, coordinate this focus lamp group 52 focused laser beam to carve.

At this, it is worth mentioning that, the direction of first direction and second direction is not limited to the direction shown in Fig. 2, Fig. 3.Switch unit 2a can drive this switched mirror 21 to rotate to suitable angle of reflection, then coordinates top, the below speculum of right quantity and angle of reflection, laser beam is reflexed to respectively first surface 91 and the second surface 92 of object 9.

Fig. 4 is the stereogram of laser mirror converted light source mechanism according to the utility model second embodiment and travel mechanism.The difference of the second embodiment and the first embodiment, is the switching mode of switch unit, and namely the present embodiment adopts at least two switched mirror, and all the other conveying mechanisms 61 and multiple travel mechanisms etc. arrange all identical with the first embodiment.Therefore, below, will icon be coordinated to be described in more detail for the switching mode of switch unit 2b and structure.

Fig. 5 and Fig. 6 is that laser beam is reflexed to the first surface 91 of object 9 and the schematic diagram of second surface 92 by the switch unit 2b shown respectively through second embodiment of the invention.In a second embodiment, switch unit 2b comprises one first switched mirror 21a, one second switched mirror 21b and power source 22, this first switched mirror 21a and the second switched mirror 21b is installed on the two ends of a revolving part 23 respectively with special angle, this revolving part 23 is by the output shaft institute interlock of this power source 22.When power source 22 is in the state of first anglec of rotation, be by this first switched mirror 21a reflected beam, and in the state of second anglec of rotation, then change by this second switched mirror 21b reflected beam.In the present embodiment, this first anglec of rotation and 180 degree, the second anglec of rotation interval, but not as limit, such as, also can be 90 degree, or multiple switched mirror can be rotated the special angle to precalculated position by other.

As shown in Figure 5, when the state that power source 22 is first anglec of rotation, this the first switched mirror 21a is arranged in the path of laser beam, the laser beam that laser generator 1 produces, be through beam expanding lens group 11 and be transmitted to the first switched mirror 21a, and reflected toward first direction from the first switched mirror 21a.Identical with the first embodiment, first direction is perpendicular to the transmit direction of described laser beam, and first direction in the horizontal direction.Via the laser beam that the first switched mirror 21a reflects, upper engraving optical module 5a is reflected onto further via speculum 32 above speculum above first 31 and second, the first surface 91 being projected to object 9 is focused on, to carry out Laser Processing to the first surface 91 of object 9 by upper engraving optical module 5a.Top optics engraving module 5a at least includes speculum group 50, scanning mirror group 51 and focus lamp group 52, this speculum group 50 by light reflection to scanning mirror group 51, adjusted the launching position of laser by scanning mirror group 51, coordinate this focus lamp group 52 focused laser beam, to carve.

As shown in Figure 6, man-hour is added when needing the second surface 92 to object 9, this revolving part 23 can be driven to rotate state to second anglec of rotation by power source 22, by in this second switched mirror 21b path in laser, through the second switched mirror 21b, laser beam is reflexed to second direction.Identical with the first embodiment, second direction is perpendicular to the transmit direction of described laser beam, and second direction is in vertical direction.Via the laser beam of the second switched mirror 21b reflection, speculum 41 below being first reflected onto first, lower engraving optical module 5b is reflexed to again via speculum 43 below speculum 42 and the 3rd below second, the second surface 92 being projected to described object 9 is focused on, to carry out Laser Processing to the second surface 92 of object 9 by lower engraving optical module 5b.Below optics engraving module 5b below 3rd between speculum 43 and object 9 equally at least includes speculum group 50, scanning mirror group 51 and focus lamp group 52, this speculum group 50 by light reflection to scanning mirror group 51, the launching position of laser is adjusted by scanning mirror group 51, coordinate this focus lamp group 52 focused laser beam, to carve.

Through the configuration of the switch unit in above-mentioned first embodiment and the second embodiment and travel mechanism, laser mirror converted light source mechanism of the present utility model can according to demand through the mode switched, select the first surface or the second surface that laser beam are reflexed to object to be processed, replace whereby relying on manually by the existing laser processing device of object turn-over, shorten required process time.

As seen from the above embodiment, the utility model value in the true tool industry of laser mirror converted light source mechanism is provided, describing is only only preferred embodiment explanation of the present utility model, all people being skillful in this skill can do other all improvement according to above-mentioned explanation, only these changes still belong in the utility model spirit and following defined the scope of the claims.

Claims (11)

1. a laser mirror converted light source mechanism, in order to carry out Laser Processing to an object, comprising: optical module carved by a laser generator, a switch unit, multiple tops speculum, multiple belows speculum, one and carves optical module once, wherein;

This laser generator in order to produce a laser beam on a transmit direction;

This switch unit comprises at least one switched mirror and a power source, wherein, power source drives this switched mirror to rotate in a rotative pattern, receive laser beam in this switched mirror of state of first anglec of rotation and laser beam is reflected toward a first direction, laser beam can be received in this switched mirror of state of second anglec of rotation and again laser beam be reflected toward a second direction;

At least one above this mirror arrangement receive this laser beam in the first direction, then this laser beam speculum above other this is reflexed to engraving optical module on this, is focused on the first surface being projected to this object by engraving optical module on this; And

At least one below this mirror arrangement in this second direction, receive this laser beam, then this laser beam is reflexed to this lower engraving optical module via speculum below other this, focuses on by this lower engraving optical module the second surface being projected to this object.

2. laser mirror converted light source mechanism according to claim 1, wherein, this first direction and this second direction are respectively perpendicular to the transmit direction of this laser beam, and this first direction is in a horizontal direction, and this second direction is in a vertical direction.

3. laser mirror converted light source mechanism according to claim 2, wherein, multiple above this speculum comprise one first above speculum above speculum, one second, after when this laser beam from first direction, by this, speculum reflects above first, further via this above second speculum be reflected onto engraving optical module on this, this above first speculum and this above second mirror arrangement for can move up in this first party simultaneously, and this above second mirror arrangement be can move up in the third party perpendicular to this first direction.

4. laser mirror converted light source mechanism according to claim 2, wherein, multiple below this speculum comprise one first below speculum, speculum below one second, speculum below one the 3rd, when from second direction this laser beam by this below first speculum reflex to this below second after speculum, again by this below second speculum reflex to the 3rd below speculum, finally be reflected onto this lower engraving optical module, this below second below speculum and the 3rd mirror arrangement for can move up in this first party simultaneously, and mirror arrangement is can move up in the third party perpendicular to this first direction below the 3rd.

5. laser mirror converted light source mechanism according to claim 1, wherein, this switch unit comprises this switched mirror and this power source, the direction of this laser generator Emission Lasers light beam is pivot by this power source and this switched mirror, when this power source drives this switched mirror to rotate, in the state of first anglec of rotation and second anglec of rotation, laser beam is reflected onto this first direction and second direction respectively.

6. laser mirror converted light source mechanism according to claim 1, wherein, this switch unit comprises multiple switched mirror and this power source, multiple switched mirror comprises the first switched mirror and the second switched mirror, when this power source drives multiple switched mirror to rotate in a rotative pattern, be receive laser beam reflect toward a first direction by laser beam from this first switched mirror in the state of first anglec of rotation, be from the second switched mirror reception laser beam in the state of second anglec of rotation and laser beam is reflected toward a second direction.

7. a laser mirror converted light source mechanism, in order to carry out Laser Processing to an object, it comprises: a laser generator, a switch unit, multiple tops speculum, multiple belows speculum, carved optical module, carve optical module and Duo Zu travel mechanism once, wherein:

This laser generator is fixed on a pedestal, in order to produce a laser beam on a transmit direction;

This switch unit is fixed on this pedestal, this switch unit comprises at least one switched mirror and a power source, this power source drives this switched mirror to rotate in a rotative pattern, receive laser beam in this switched mirror of state of first anglec of rotation and laser beam is reflected toward a first direction, can laser beam be received in this switched mirror of state of second anglec of rotation and laser beam is reflected toward a second direction;

Many groups of these travel mechanisms are installed on this pedestal, and by wherein many this travel mechanisms of group, at least one speculum and engraving optical module on this above this are installed respectively, wherein the travel mechanism of rear stage is installed in the travel mechanism of previous stage, also install at least one speculum and this lower engraving optical module below this respectively by organizing this travel mechanism in addition, wherein the travel mechanism of rear stage is installed in the travel mechanism of previous stage more;

At least one above this mirror arrangement receive this laser beam in the first direction, then this laser beam speculum above other this is reflexed to engraving optical module on this, is focused on the first surface being projected to this object by engraving optical module on this; And

At least one below this speculum be fixed on this pedestal, and be configured in this second direction and receive this laser beam, again this laser beam is reflexed to this lower engraving optical module via speculum below other this, focus on by this lower engraving optical module the second surface being projected to this object; Wherein, this travel mechanism can move up this first direction, this second direction and the third party perpendicular to this first direction.

8. laser mirror converted light source mechanism according to claim 7, wherein, multiple above this speculum comprise one first above speculum, speculum above in the of one second, after when this laser beam from first direction, by this, speculum reflects above first, further via this above second speculum be reflected onto engraving optical module on this, the wherein part of this travel mechanism multiple is one first travel mechanism, one second travel mechanism and the 3rd travel mechanism, wherein the first travel mechanism is fixed on this pedestal, be responsible for driving this above first speculum move along first direction, above second travel mechanism responsible second, speculum moves along third direction, 3rd moving machine is then responsible for driving engraving optical module on this to do the movement of vertical direction.

9. laser mirror converted light source mechanism according to claim 7, wherein, multiple below this speculum comprise one first below speculum, speculum below one second, speculum below one the 3rd, when from second direction this laser beam by this below first speculum reflex to this below second after speculum, again by this below second speculum reflex to the 3rd below speculum, finally be reflected onto this lower engraving optical module, the wherein part of this travel mechanism multiple is one the 4th travel mechanism, one the 5th travel mechanism and one the 6th travel mechanism, wherein the 4th travel mechanism is fixed on this pedestal, be responsible for driving this below second speculum move along first direction, below 5th travel mechanism the responsible 3rd, speculum moves along third direction, 6th moving machine is then responsible for driving this lower engraving optical module to do the movement of vertical direction.

10. laser mirror converted light source mechanism according to claim 7, wherein, this switch unit comprises this switched mirror and this power source, the direction of this laser generator Emission Lasers light beam is pivot by this power source and this switched mirror, when this power source drives this switched mirror to rotate, in the state of first anglec of rotation and second anglec of rotation, laser beam is reflected onto this first direction and second direction respectively.

11. laser mirror converted light source mechanisms according to claim 7, wherein, this switch unit comprises multiple switched mirror and this power source, multiple switched mirror comprises the first switched mirror and the second switched mirror, when this power source drives multiple switched mirror to rotate in a rotative pattern, be receive laser beam reflect toward a first direction by laser beam from this first switched mirror in the state of first anglec of rotation, be from the second switched mirror reception laser beam in the state of second anglec of rotation and laser beam is reflected toward a second direction.