CN108311792A - Belt steel surface laser scoring apparati - Google Patents

Abstract

A kind of belt steel surface laser scoring apparati of the present invention comprising：Lasing light emitter, transflective portion part, reflection component and scan box, lasing light emitter project laser；Transflective portion part makes a part for the laser emitted by the lasing light emitter penetrate, and another part of the laser emitted by the lasing light emitter is made to be reflected into scan box as first laser；Reflection component makes the laser through transflective portion part be reflected into scan box as second laser；There is scan box reflection component group and focusing block, reflection component group first laser and second laser to be made to be irradiated on focusing block with different paths respectively, and focusing block makes first laser and second laser gather on belt steel surface respectively.Thereby, it is possible to realize belt steel surface laser scoring apparati that is simple in structure and minimizing.

Description

Belt steel surface laser scoring apparati

Technical field

The present invention relates to a kind of belt steel surface laser scoring apparatis.

Background technology

In current belt steel surface laser scoring apparati, in order to improve strip production capacity, two are needed to configure under normal conditions A above lasing light emitter.

But once using more than two lasing light emitters, the structure of entire belt steel surface laser scoring apparati can be caused to become It obtains complicated and large-scale.

Invention content

It is an object of the invention to solve the above problems, provide it is a kind of can realize it is simple in structure and minimize strip Surface laser scratching device.

To achieve the goals above, a kind of belt steel surface laser scoring apparati according to the present invention, including：Lasing light emitter, Transflective portion part, reflection component and scan box, the lasing light emitter project laser；The transflective portion part makes A part for laser emitted by the lasing light emitter penetrates, and another part of the laser emitted by the lasing light emitter is made to make It is reflected into the scan box for first laser；The reflection component makes the laser through the transflective portion part make It is reflected into the scan box for second laser；The scan box has reflection component group and focusing block, the reflecting part Part group makes the first laser and the second laser are irradiated on the focusing block, the focusing with different paths respectively Component makes the first laser and the second laser gather on belt steel surface respectively.

In addition, in belt steel surface laser scoring apparati according to the present invention, the focusing block is by light splitting focus lamp Group is constituted, and the light splitting, which focuses microscope group, has the first focus lamp and compared with first focus lamp close to the belt steel surface The second focus lamp, and gathered on belt steel surface after being respectively divided the first laser and the second laser.

In addition, in belt steel surface laser scoring apparati according to the present invention, first focus lamp and described second At least any one party of focus lamp can the displacement along the extending direction of the belt steel surface.

In addition, in belt steel surface laser scoring apparati according to the present invention, second focus lamp can be along described The extending direction of belt steel surface and displacement.

In addition, in belt steel surface laser scoring apparati according to the present invention, the reflection component group includes first anti- Mirror, the second speculum, prism, third speculum and the 4th speculum are penetrated, first speculum keeps the first laser anti- It is mapped on the prism, second speculum makes the second laser be reflected on the prism, and the prism is with rotatable Mode and be arranged in the scan box, the first laser and the second laser are changed by the rotation of the prism Direction of travel be reflected on the third speculum, the third speculum keeps the first laser and the second laser anti- It is mapped on the 4th speculum, the 4th speculum makes the first laser and the second laser be reflected into the focusing On component.

According to belt steel surface laser scoring apparati according to the present invention, due to by using transflective portion part, The laser emitted by the lasing light emitter is divided to realize, therefore without the structure using more lasing light emitters.As a result, can Enough realize belt steel surface laser scoring apparati that is simple in structure and minimizing.

Description of the drawings

Fig. 1 is the structural schematic diagram of the belt steel surface laser scoring apparati involved by embodiments of the present invention；

Fig. 2 is the structural schematic diagram of scan box；

Fig. 3 is the structural schematic diagram of the 4th speculum and focusing block.

Specific implementation mode

Hereinafter, being carried out specifically to the belt steel surface laser scoring apparati involved by embodiments of the present invention with reference to attached drawing It is bright.

As depicted in figs. 1 and 2, the belt steel surface laser scoring apparati 100 involved by embodiments of the present invention includes swashing Light source 1, transflective portion part 2, reflection component 3 and scan box 4.

Lasing light emitter 1 is fixed at the outside of scan box 4, and projects laser.

Transflective portion part 2 is arranged in the light path of the laser emitted by lasing light emitter 1, and in scan box 4.This Outside, transflective portion part 2 makes a part (50%) for the laser emitted by the lasing light emitter 1 penetrate, and makes from 1 institute of lasing light emitter Another part (50%) of the laser of injection is reflected into as first laser on aftermentioned first speculum 431.Pass through as a result, Transflective portion part 2 is set in the light path of the laser emitted by lasing light emitter 1, to realize to emitted by lasing light emitter 1 Laser is once divided.

Reflection component 3 is similarly disposed in the light path of the laser emitted by lasing light emitter 1, and in scan box 4.Half transmitting Semi-reflective member 2 is between lasing light emitter 1 and reflection component 3.In addition, reflection component 3 makes through transflective portion part 2 Laser is reflected into as second laser on aftermentioned second speculum 432.In addition, due to transflective portion part 2 and instead It the first laser penetrating component 3 to be arranged in parallel, therefore be reflected on the first speculum 431 and is reflected on the second speculum 432 Second laser is parallel to each other.

Scan box 4 has laser entrance hole 41, reflection component group 43, focusing block 45, laser leadout hole 46 and baffle 47.Laser entrance hole 41 is arranged on the face opposed with lasing light emitter 1 of scan box 4, that is, laser entrance hole 41 also is located at lasing light emitter In the light path of laser emitted by 1.Therefore, the laser emitted by the lasing light emitter 1 enters scanning via the laser entrance hole 41 In box 4.

Reflection component group 43 is made of multiple reflection components.Specifically, reflection component group 43 by the first speculum 431, Second speculum 432, prism 433, third speculum 434 and the 4th speculum 435 are constituted.First speculum 431 and first Laser is corresponding, is arranged in the light path of first laser, and first laser is made to be reflected on the side of prism 433.Second speculum 432 is corresponding with second laser, is arranged in the light path of second laser, and second laser is made to be reflected on the side of prism 433.

Prism 433 is pivotally arranged in scan box 4, rotation axis and the scan box 4 of the prism 433 Short transverse is arranged in parallel.In overlook observation prism 433, the side of prism 433 is polygon (referring to Fig.1).In addition, prism 433 are rotated by the driving of prism driving unit 5, to which prism 433 reflects the reflecting surface of first laser and second laser Constantly variation.As a result, according to different reflectings surface, the direction of travel of first laser and second laser generates change in the horizontal plane Change.

It is reflected on third speculum 434 via the first laser and second laser of prism 433.Third speculum 434 are arranged in one end (left end of Fig. 1 and Fig. 2) of the length direction of scan box 4, and the reflecting surface of third speculum 434 along The width direction of scan box 4 and extend.In addition, no matter how the second prism 433 rotates, first laser and second laser are anti- It is mapped on the reflecting surface of third speculum 434, that is, the scanning side on third speculum 434 of first laser and second laser To the width direction for scan box 4.In addition, lasing light emitter 1, transflective portion part 2, reflection component 3, the first speculum 431, Second speculum 432, prism 433 and third speculum 434 are respectively positioned in same level.As a result, laser from lasing light emitter 1 to Third speculum 434 is transmitted in the horizontal plane.

In addition, in the present embodiment, in the first speculum 431 (the second speculum 432) between third speculum 434 It is provided with multiple baffles 47.Multiple baffle 47 is used to carry out the travel range (scanning range) of first laser and second laser Limitation, so as to ensure that first laser and second laser can be reflected into the reflecting surface of third speculum 434 from prism 433 On.

As shown in Fig. 2, the 4th speculum 435 is arranged in the lower section of third speculum 434.Via third speculum 434 First laser and second laser are reflected on the 4th speculum 435.The 4th speculum 435 makes first laser and second swash later In light reflection to focusing block 45.In addition, the 4th speculum 435 is corresponding with third speculum 434, the 4th speculum 435 Reflecting surface extends also along the width direction of scan box 4.

It is constituted as shown in figure 3, focusing block 45 focuses microscope group by light splitting, light splitting, which focuses microscope group, has upper focus lamp 451 (the first focus lamp) and compared with upper focus lamp 451 close to the lower condensing lens 452 of belt steel surface (the second focus lamp).That is, upper poly- Burnt mirror 451 is arranged in the top of lower focus lamp 452.Wherein, upper focus lamp 451 and lower focus lamp 452 and third speculum 434 with And the 4th speculum 435 it is corresponding, the width direction of the focusing surface of upper focus lamp 451 and lower focus lamp 452 also along scan box 4 And extend.Also, light splitting focus lamp group is gathered after being respectively divided first laser and second laser on the surface of strip P.That is, After upper focus lamp 451 and lower focus lamp 452 receive first laser, first laser is divided into two beam laser and is exported across laser Hole 46 is simultaneously gathered in a manner of there are a determining deviation on the surface of strip P；In addition, upper focus lamp 451 and lower focus lamp 452 After receiving second laser, second laser is divided into two beam laser across laser leadout hole 46 and with there are the sides of a determining deviation Formula and be gathered on the surface of strip P, secondary light splitting is carried out to laser to realize.In the present embodiment, lower focus lamp 452 By can along the extending direction displacement on the surfaces strip P in a manner of and formed, and with making the lower focusing of 452 displacement of lower focus lamp Mirror driving unit (not shown).Thereby, it is possible to the drivings by lower focus lamp driving unit, to make two beam laser in strip P On indentation spacing adjusted.As other embodiment, focus lamp 451 and lower focus lamp 452 can also be gone up at least to appoint The side that anticipates can be formed along the mode of the extending direction displacement on the surfaces strip P, and single with the driving of corresponding focus lamp Member.In addition, since prism 433 is rotated, to which the direction of travel of first laser and second laser generates change in the horizontal plane Change, therefore the width direction that the scanning direction on the surfaces strip P of laser is strip P.Wherein, the width direction of strip P with The width direction of scan box 4 is consistent.

In conclusion the belt steel surface laser scoring apparati 100 involved by according to the embodiment of the present invention, due to passing through Using transflective portion part 2, the laser emitted by the lasing light emitter 1 is divided so as to realize, therefore not With the structure using more lasing light emitters.Thereby, it is possible to realize belt steel surface laser scoring apparati that is simple in structure and minimizing.

Further, since focusing microscope group by using light splitting, multiple laser scanning indentations are carried out at the same time so as to realize, because This can improve the laser scored efficiency of strip.In addition, the first focus lamp and the second focus lamp due to constituting light splitting focusing group At least any one party can the displacement on the extending direction on the surfaces strip P, therefore can be according to a variety of different indentation demands And adjust the relative distance between the first focus lamp and the second focus lamp.

Claims (5)

1. a kind of belt steel surface laser scoring apparati, which is characterized in that including：

Lasing light emitter, transflective portion part, reflection component and scan box,

The lasing light emitter projects laser；

The transflective portion part makes a part for the laser emitted by the lasing light emitter penetrate, and makes from the laser Another part of laser emitted by source is reflected into the scan box as first laser；

The reflection component makes the laser through the transflective portion part as second laser and is reflected into described sweep Retouch box；

The scan box has reflection component group and focusing block,

The reflection component group makes the first laser and the second laser be irradiated to the focusing with different paths respectively On component,

The focusing block makes the first laser and the second laser gather on belt steel surface respectively.

2. belt steel surface laser scoring apparati as described in claim 1, which is characterized in that

The focusing block focuses microscope group by light splitting and is constituted, and light splitting focusing microscope group is with the first focus lamp and with described the One focus lamp compares the second focus lamp close to the belt steel surface, and makes the first laser and the second laser point respectively It is gathered on belt steel surface after light.

3. belt steel surface laser scoring apparati as claimed in claim 2, which is characterized in that

At least any one party of first focus lamp and second focus lamp can be along the extending direction of the belt steel surface And displacement.

4. belt steel surface laser scoring apparati as claimed in claim 2, which is characterized in that

Second focus lamp can the displacement along the extending direction of the belt steel surface.

5. the belt steel surface laser scoring apparati as described in any one in Claims 1-4, which is characterized in that

The reflection component group includes the first speculum, the second speculum, prism, third speculum and the 4th speculum,

First speculum makes the first laser be reflected on the prism,

Second speculum makes the second laser be reflected on the prism,

The prism is pivotally arranged in the scan box, changes described the by the rotation of the prism One laser and the direction of travel of the second laser are reflected on the third speculum,

The third speculum makes the first laser and the second laser be reflected on the 4th speculum,

4th speculum makes the first laser and the second laser be reflected on the focusing block.