阅读说明：本技术 一种激光加工检测装置 (Laser processing detection device ) 是由 彭义坤 吴真林 闵大勇 王俊 廖新胜 李波 胡燚文 于 2021-07-29 设计创作，主要内容包括：本发明提供一种激光加工检测装置,包括：检测耦合腔体；激光发生器,激光发生器适于给检测耦合腔体提供激光；激光加工输出部件和第一光纤,第一光纤分别与激光加工输出部件和检测耦合腔体连接,激光加工输出部件适于对工件进行激光加工并传输工件发出的热辐射红外光至第一光纤；位于检测耦合腔体侧部的红外温度检测器；位于检测耦合腔体中的第一反射镜,第一反射镜适于将激光发生器发射的激光反射至第一光纤中,第一反射镜还适于透过热辐射红外光。提高了检测精度。(The invention provides a laser processing detection device, comprising: detecting the coupling cavity; the laser generator is suitable for providing laser for the detection coupling cavity; the detection coupling cavity is connected with the laser processing output component and the detection coupling cavity, and the laser processing output component is suitable for carrying out laser processing on a workpiece and transmitting heat radiation infrared light emitted by the workpiece to the first optical fiber; the infrared temperature detector is positioned on the side part of the detection coupling cavity; and the first reflector is positioned in the detection coupling cavity and is suitable for reflecting the laser emitted by the laser generator into the first optical fiber, and the first reflector is also suitable for transmitting thermal radiation infrared light. The detection precision is improved.)

1. A laser machining detection apparatus, comprising:

detecting the coupling cavity;

a laser generator adapted to provide laser light to the detection coupling cavity;

the detection coupling cavity is connected with the laser processing output component and the detection coupling cavity, and the laser processing output component is suitable for carrying out laser processing on a workpiece and transmitting heat radiation infrared light emitted by the workpiece to the first optical fiber;

a first mirror in the detection coupling cavity, the first mirror adapted to reflect laser light emitted by the laser generator into the first optical fiber, the first mirror further adapted to transmit the bolometric infrared light;

and the infrared temperature detector is positioned on the side part of the detection coupling cavity and is suitable for detecting the thermal radiation infrared light transmitted by the first reflector.

2. The laser machining detection apparatus of claim 1, further comprising: a second mirror positioned in the detection coupling cavity, the second mirror adapted to reflect the bolometric infrared light transmitted from the first mirror to the infrared temperature detector.

3. The laser processing detection device of claim 1, wherein the surface of the first reflector is coated with a laser reflection film and a thermal radiation infrared light antireflection film.

4. The laser processing detection device of claim 2, wherein the surface of the second reflector is coated with a laser antireflection film and a thermal radiation infrared reflection film.

5. The laser processing detection device of claim 2, wherein a wall of the detection coupling cavity is provided with a first opening, a second opening and a third opening;

one end of the first optical fiber is connected with the first opening, and the other end of the first optical fiber is connected with the laser processing output component;

the laser processing detection device further comprises: a second optical fiber, one end of which is connected with the laser generator, and the other end of which is positioned in the second opening;

the first reflector is suitable for reflecting the laser light from the second opening to the first opening;

the second reflector is located on a side of the first reflector facing away from the first opening, the second reflector is adapted to reflect thermal radiation infrared light to the third opening, and the infrared temperature detector faces the third opening.

6. The laser processing detection device of claim 5, wherein the detection coupling cavity has a third cavity wall, and a first cavity wall and a second cavity wall which are arranged oppositely; the third cavity wall is positioned between and connected with the first cavity wall and the second cavity wall; the third cavity wall is provided with the first opening, and the second cavity wall is provided with the second opening;

the third opening is formed in the first cavity wall, and the second reflector is perpendicular to the first reflector; or the third opening is formed in the wall of the second cavity, and the second reflector is parallel to the first reflector.

7. The laser processing inspection device of claim 6, wherein the inspection coupling cavity further has a fourth cavity wall disposed opposite the third cavity wall, the fourth cavity wall being located between and connected to the first cavity wall and the second cavity wall;

a fourth opening is formed in the fourth cavity wall, and the central axis of the fourth opening is overlapped with the central axis of the first opening;

the laser processing detection device further comprises: a visible light emitting unit facing the fourth opening, the visible light emitting unit adapted to emit first visible light;

the second mirror is adapted to transmit the first visible light, and the first mirror is adapted to transmit the first visible light.

8. The laser processing detection apparatus of claim 7, wherein the laser generator comprises a laser generating portion and a visible light generating portion, the visible light generating portion is operable independently of the laser generating portion, the laser generating portion is adapted to generate laser light, the visible light generating portion is adapted to generate second visible light, the second visible light is adapted to be emitted in a mixed manner with the laser light generated by the laser generating portion during adjustment of the position of the first mirror, and the first visible light and the second visible light have different wavelengths.

9. The laser processing detection device of claim 6, wherein a fifth opening is further formed in the first cavity wall, and a central axis of the fifth opening coincides with a central axis of the second opening; the first reflector is also suitable for transmitting part of laser light incident from the second opening to the fifth opening;

the laser processing detection device further comprises: and the laser power signal processor is positioned on one side of the first cavity wall, which is opposite to the second cavity wall, and is opposite to the fifth opening.

10. The laser processing detection device of claim 9, wherein a sixth opening is further formed in the second cavity wall, and the sixth opening and the second opening are arranged at an interval;

the laser processing detection device further comprises: the first photoelectric signal converter is positioned on one side, back to the first cavity wall, of the second cavity wall and is opposite to the sixth opening;

the laser processing detection device is suitable for representing the laser power of the laser generator by adopting the difference value of the laser power detected by the laser power signal processor and the laser power detected by the first photoelectric signal converter.

11. The laser processing detection device of claim 7, wherein the fourth cavity wall further defines a seventh opening, the seventh opening and the fourth opening are spaced apart, and the seventh opening is adapted to receive the first visible light reflected from the workpiece surface into the detection coupling cavity;

the laser processing detection device further comprises: the second photoelectric signal converter is positioned on one side, back to the third cavity wall, of the fourth cavity wall and is opposite to the seventh opening; a filter, located the second mirror with between the seventh opening and the second mirror with between the fourth opening, the filter is suitable for the selective transmission first visible light, the wavelength of first visible light with the wavelength of thermal radiation infrared light is different.

12. The laser machining detection apparatus of claim 5, further comprising: a first collimating mirror located in the detection coupling cavity, the first collimating mirror located on an optical path from the second opening to the first mirror; a first focusing mirror positioned on an optical path from the first mirror to the first opening.

13. The laser processing detection apparatus of claim 1, wherein a second collimating mirror and a second focusing mirror are disposed in the laser processing output component, the second collimating mirror being located between the second focusing mirror and a junction of the first optical fiber and the laser processing output component.

14. The laser processing detection apparatus according to any one of claims 1 to 13, further comprising:

a printed circuit board;

the infrared temperature detection interface is positioned at the edge of the printed circuit board, is electrically connected with the printed circuit board and is suitable for being connected with the infrared temperature detector;

and the laser generator interface is electrically connected with the printed circuit board and is suitable for being connected with the laser generator.

15. The laser machining detection apparatus of claim 14, further comprising:

the power interface is positioned at the edge of the printed circuit board and electrically connected with the printed circuit board;

a control computer adapted to process signals in the printed circuit board;

the data transmission port is positioned at the edge of the printed circuit board and is electrically connected with the printed circuit board, and the data transmission port is suitable for being connected with a control computer and transmitting signals between the control computer and the printed circuit board;

the trigger switch is positioned at the edge of the printed circuit board and electrically connected with the printed circuit board, and the trigger switch is suitable for controlling the laser processing detection device to start or stop working.

16. A method of operating a laser machining inspection apparatus according to any one of claims 1 to 15, comprising:

the laser generator provides laser for the detection coupling cavity;

the first reflecting mirror reflects the laser light emitted by the laser generator into the first optical fiber;

the first optical fiber transmits laser to the laser processing output component;

the laser processing output component carries out laser processing on the workpiece and transmits heat radiation infrared light emitted by the workpiece to the first optical fiber;

the first reflector transmits thermal radiation infrared light transmitted by the first optical fiber;

the infrared temperature detector is used for detecting the thermal radiation infrared light transmitted from the first reflector.

17. The method of claim 16, wherein the laser generator comprises a laser generating portion and a visible light generating portion, the visible light generating portion being operable independently of the laser generating portion, the laser generating portion being adapted to generate laser light, the visible light generating portion being adapted to generate a second visible light;

the working method of the laser processing detection device further comprises the following steps: adjusting the position of the first reflector and fixing the first reflector at a first position;

the method of adjusting the position of the first mirror and fixing the first mirror in the first position comprises: the laser generator emits a second visible light and laser light mixed together to the surface of the first reflecting mirror; adjusting the position of the first mirror until the second visible light is observed at the surface of the workpiece; determining a position of the first mirror as a first position when the second visible light is observed on the surface of the workpiece; and after the first position of the first reflector is determined, the visible light generating part is closed.

18. The method of claim 16, wherein the laser machining inspection device includes a second mirror positioned in the inspection coupling cavity;

the step of the infrared temperature detector being adapted to detect the bolometric infrared light transmitted from the first mirror comprises: the second reflecting mirror reflects the thermal radiation infrared light transmitted from the first reflecting mirror to the infrared temperature detector.

19. The working method of the laser processing detection device according to claim 18, wherein the detection coupling cavity has a third cavity wall and a fourth cavity wall opposite to each other, and the third cavity wall is provided with a first opening; a fourth opening is formed in the fourth cavity wall, and the central axis of the fourth opening is overlapped with the central axis of the first opening; one end of the first optical fiber is connected with the first opening, and the other end of the first optical fiber is connected with the laser processing output component; the laser processing detection device further comprises: a visible light emitting unit; the working method of the laser processing detection device further comprises the following steps: the visible light emitting unit emits first visible light to the fourth opening, the first visible light is transmitted to the first opening through the second reflecting mirror and the first reflecting mirror, and the first optical fiber transmits the first visible light to the laser processing output component; the laser processing output part outputs laser light and outputs first visible light to the surface of a workpiece; the first visible light on the surface of the workpiece directs the laser processing output component to laser process the workpiece.

20. The working method of the laser processing detection device according to claim 19, wherein a seventh opening is further formed in the wall of the fourth cavity, and the seventh opening and the fourth opening are arranged at an interval; the laser processing detection device further comprises: a second photoelectric signal converter; a filter between the second mirror and the seventh opening and between the second mirror and the fourth opening, the filter being adapted to selectively transmit the first visible light; a wavelength of the first visible light is different from a wavelength of the thermal radiation infrared light;

the working method of the laser processing detection device further comprises the following steps: detecting the intensity of laser reflected by the workpiece;

the method for detecting the intensity of the laser reflected by the workpiece comprises the following steps: a second opto-electrical signal converter receives the first visible light reflected from the workpiece surface into the detection coupling cavity from the seventh opening; acquiring the ratio of the intensity of the first visible light received by the second photoelectric signal converter to the intensity of the first visible light emitted by the visible light emitting unit, and taking the ratio as the reflectivity of the surface of the workpiece; and acquiring the intensity of the laser reflected by the workpiece according to the intensity of the laser generated by the laser generator and the reflectivity of the surface of the workpiece.

21. The method of claim 16, wherein the detection coupling cavity has a first cavity wall and a second cavity wall opposite to each other; the second cavity wall is provided with a second opening and a sixth opening; the laser generator provides laser for the detection coupling cavity through the second opening; a fifth opening is formed in the first cavity wall, and the central axis of the fifth opening is overlapped with the central axis of the second opening; the laser processing detection device further comprises: a laser power signal processor; a first photoelectric signal converter;

the working method of the laser processing detection device further comprises the following steps: detecting the laser power generated by the laser generator;

the method for detecting the power of the laser generated by the laser generator comprises the following steps: the first reflector penetrates part of laser incident from the second opening to the fifth opening, and the laser power signal processor detects the power of the laser at the fifth opening; the first photoelectric signal converter detects the laser light diffusely reflected in the detection coupling cavity from the sixth opening; and the difference value of the power of the laser detected by the laser power signal processor and the power of the laser detected by the first photoelectric signal converter is adopted to represent the laser power of the laser generator.

Technical Field

The invention relates to the technical field of lasers, in particular to a laser processing detection device.

Background

The laser processing is a high-efficiency precision processing method using high-energy laser as a heat source, the surface of a workpiece is heated through laser radiation, the heat on the surface of the workpiece is diffused inwards through heat conduction, the workpiece is melted by controlling parameters such as the width, the energy, the peak power, the repetition frequency and the like of the laser, a specific molten pool is formed, and the processing purposes of welding, surface treatment, punching, micro-engraving and the like are achieved.

Some processed workpieces are sensitive to temperature, and in order to achieve the best processing effect, the real-time temperature of laser needs to be detected so as to prevent the processed workpieces from being damaged. The laser temperature detection device provided by the prior art is usually in a coaxial detection mode, i.e. an infrared ray for temperature detection is coaxial with a laser part, and the purpose of measuring the laser temperature is achieved by measuring the temperature of the infrared ray.

However, due to machining errors, installation errors and errors caused by movement and deformation of components in the using process, infrared rays and laser are not coaxial, certain errors exist, and the accuracy of laser temperature detection is seriously affected.

Disclosure of Invention

Therefore, the technical problem to be solved by the present invention is to overcome the problem in the prior art that the laser temperature coaxial detection accuracy needs to be improved, thereby providing a laser processing detection apparatus.

The invention provides a laser processing detection device, comprising: detecting the coupling cavity; a laser generator adapted to provide laser light to the detection coupling cavity; the detection coupling cavity is connected with the laser processing output component and the detection coupling cavity, and the laser processing output component is suitable for carrying out laser processing on a workpiece and transmitting heat radiation infrared light emitted by the workpiece to the first optical fiber; a first mirror in the detection coupling cavity, the first mirror adapted to reflect laser light emitted by the laser generator into the first optical fiber, the first mirror further adapted to transmit the bolometric infrared light; the infrared temperature detector is positioned on the side part of the detection coupling cavity; the infrared temperature detector is adapted to detect the thermally radiated infrared light transmitted from the first mirror.

Optionally, the method further includes: a second mirror positioned in the detection coupling cavity, the second mirror adapted to reflect the bolometric infrared light transmitted from the first mirror to the infrared temperature detector.

Optionally, the surface of the first reflector is plated with a laser reflection film and a thermal radiation infrared light antireflection film.

Optionally, the surface of the second reflector is plated with a laser antireflection film and a thermal radiation infrared reflection film.

Optionally, a first opening, a second opening, and a third opening are disposed on a cavity wall of the detection coupling cavity; one end of the first optical fiber is connected with the first opening, and the other end of the first optical fiber is connected with the laser processing output component; the laser processing detection device further comprises: a second optical fiber, one end of which is connected with the laser generator, and the other end of which is positioned in the second opening; the first reflector is suitable for reflecting the laser light from the second opening to the first opening; the second reflector is located on a side of the first reflector facing away from the first opening, the second reflector is adapted to reflect thermal radiation infrared light to the third opening, and the infrared temperature detector faces the third opening.

Optionally, the detection coupling cavity has a third cavity wall, and a first cavity wall and a second cavity wall that are disposed opposite to each other; the third cavity wall is positioned between and connected with the first cavity wall and the second cavity wall; the third cavity wall is provided with the first opening, and the second cavity wall is provided with the second opening; the third opening is formed in the first cavity wall, and the second reflector is perpendicular to the first reflector; or the third opening is formed in the wall of the second cavity, and the second reflector is parallel to the first reflector.

Optionally, the detection coupling cavity further has a fourth cavity wall disposed opposite to the third cavity wall, and the fourth cavity wall is located between and connected to the first cavity wall and the second cavity wall; a fourth opening is formed in the fourth cavity wall, and the central axis of the fourth opening is overlapped with the central axis of the first opening; the laser processing detection device further comprises: a visible light emitting unit facing the fourth opening, the visible light emitting unit adapted to emit first visible light; the second mirror is adapted to transmit the first visible light, and the first mirror is adapted to transmit the first visible light.

Optionally, the laser generator includes laser generation portion and visible light generation portion, visible light generation portion can be independent of laser generation portion work, laser generation portion is suitable for producing laser, visible light generation portion is suitable for producing the second visible light, the second visible light be suitable for in-process at the position of debugging first speculum with the laser that laser generation portion produced mixes the transmission together, first visible light with the wavelength of second visible light is not the same.

Optionally, a fifth opening is further formed in the first cavity wall, and a central axis of the fifth opening is overlapped with a central axis of the second opening; the first reflector is also suitable for transmitting part of laser light incident from the second opening to the fifth opening; the laser processing detection device further comprises: and the laser power signal processor is positioned on one side of the first cavity wall, which is opposite to the second cavity wall, and is opposite to the fifth opening.

Optionally, a sixth opening is further formed in the second cavity wall, and the sixth opening and the second opening are arranged at an interval; the laser processing detection device further comprises: the first photoelectric signal converter is positioned on one side, back to the first cavity wall, of the second cavity wall and is opposite to the sixth opening; the laser processing detection device is suitable for representing the laser power of the laser generator by adopting the difference value of the laser power detected by the laser power signal processor and the laser power detected by the first photoelectric signal converter.

Optionally, a seventh opening is further formed in the fourth cavity wall, the seventh opening and the fourth opening are arranged at an interval, and the seventh opening is adapted to receive the first visible light reflected from the surface of the workpiece into the detection coupling cavity; the laser processing detection device further comprises: the second photoelectric signal converter is positioned on one side, back to the third cavity wall, of the fourth cavity wall and is opposite to the seventh opening; a filter, located the second mirror with between the seventh opening and the second mirror with between the fourth opening, the filter is suitable for the selective transmission first visible light, the wavelength of first visible light with the wavelength of thermal radiation infrared light is different.

Optionally, the method further includes: a first collimating mirror located in the detection coupling cavity, the first collimating mirror located on an optical path from the second opening to the first mirror; a first focusing mirror positioned on an optical path from the first mirror to the first opening.

Optionally, a second collimating lens and a second focusing lens are disposed in the laser processing output component, and the second collimating lens is located between the second focusing lens and a joint of the first optical fiber and the laser processing output component.

Optionally, the method further includes: a printed circuit board; the infrared temperature detection interface is positioned at the edge of the printed circuit board, is electrically connected with the printed circuit board and is suitable for being connected with the infrared temperature detector; and the laser generator interface is electrically connected with the printed circuit board and is suitable for being connected with the laser generator.

Optionally, the method further includes: the power interface is positioned at the edge of the printed circuit board and electrically connected with the printed circuit board; a control computer adapted to process signals in the printed circuit board; the data transmission port is positioned at the edge of the printed circuit board and is electrically connected with the printed circuit board, and the data transmission port is suitable for being connected with a control computer and transmitting signals between the control computer and the printed circuit board; the trigger switch is positioned at the edge of the printed circuit board and electrically connected with the printed circuit board, and the trigger switch is suitable for controlling the laser processing detection device to start or stop working.

The invention also provides a working method of the laser processing detection device, which comprises the following steps: the laser generator provides laser for the detection coupling cavity; the first reflecting mirror reflects the laser light emitted by the laser generator into the first optical fiber; the first optical fiber transmits laser to the laser processing output component; the laser processing output component carries out laser processing on the workpiece and transmits heat radiation infrared light emitted by the workpiece to the first optical fiber; the first reflector transmits thermal radiation infrared light transmitted by the first optical fiber; the infrared temperature detector is used for detecting the thermal radiation infrared light transmitted from the first reflector.

Optionally, the laser generator includes a laser generating portion and a visible light generating portion, the visible light generating portion can work independently from the laser generating portion, the laser generating portion is adapted to generate laser light, and the visible light generating portion is adapted to generate second visible light; the working method of the laser processing detection device further comprises the following steps: adjusting the position of the first reflector and fixing the first reflector at a first position; the method of adjusting the position of the first mirror and fixing the first mirror in the first position comprises: the laser generator emits a second visible light and laser light mixed together to the surface of the first reflecting mirror; adjusting the position of the first mirror until the second visible light is observed at the surface of the workpiece; determining a position of the first mirror as a first position when the second visible light is observed on the surface of the workpiece; and after the first position of the first reflector is determined, the visible light generating part is closed.

Optionally, the laser processing detection device includes a second mirror located in the detection coupling cavity; the step of the infrared temperature detector being adapted to detect the bolometric infrared light transmitted from the first mirror comprises: the second reflecting mirror reflects the thermal radiation infrared light transmitted from the first reflecting mirror to the infrared temperature detector.

Optionally, the detection coupling cavity has a third cavity wall and a fourth cavity wall opposite to each other, and the third cavity wall is provided with a first opening; a fourth opening is formed in the fourth cavity wall, and the central axis of the fourth opening is overlapped with the central axis of the first opening; one end of the first optical fiber is connected with the first opening, and the other end of the first optical fiber is connected with the laser processing output component; the laser processing detection device further comprises: a visible light emitting unit; the working method of the laser processing detection device further comprises the following steps: the visible light emitting unit emits first visible light to the fourth opening, the first visible light is transmitted to the first opening through the second reflecting mirror and the first reflecting mirror, and the first optical fiber transmits the first visible light to the laser processing output component; the laser processing output part outputs laser light and outputs first visible light to the surface of a workpiece; the first visible light on the surface of the workpiece directs the laser processing output component to laser process the workpiece.

Optionally, a seventh opening is further formed in the fourth cavity wall, and the seventh opening and the fourth opening are arranged at an interval; the laser processing detection device further comprises: a second photoelectric signal converter; a filter between the second mirror and the seventh opening and between the second mirror and the fourth opening, the filter being adapted to selectively transmit the first visible light; a wavelength of the first visible light is different from a wavelength of the thermal radiation infrared light; the working method of the laser processing detection device further comprises the following steps: detecting the intensity of laser reflected by the workpiece; the method for detecting the intensity of the laser reflected by the workpiece comprises the following steps: a second opto-electrical signal converter receives the first visible light reflected from the workpiece surface into the detection coupling cavity from the seventh opening; acquiring the ratio of the intensity of the first visible light received by the second photoelectric signal converter to the intensity of the first visible light emitted by the visible light emitting unit, and taking the ratio as the reflectivity of the surface of the workpiece; and acquiring the intensity of the laser reflected by the workpiece according to the intensity of the laser generated by the laser generator and the reflectivity of the surface of the workpiece.

Optionally, the detection coupling cavity has a first cavity wall and a second cavity wall which are oppositely arranged; the second cavity wall is provided with a second opening and a sixth opening; the laser generator provides laser for the detection coupling cavity through the second opening; a fifth opening is formed in the first cavity wall, and the central axis of the fifth opening is overlapped with the central axis of the second opening; the laser processing detection device further comprises: a laser power signal processor; a first photoelectric signal converter; the working method of the laser processing detection device further comprises the following steps: detecting the laser power generated by the laser generator; the method for detecting the power of the laser generated by the laser generator comprises the following steps: the first reflector penetrates part of laser incident from the second opening to the fifth opening, and the laser power signal processor detects the power of the laser at the fifth opening; the first photoelectric signal converter detects the laser light diffusely reflected in the detection coupling cavity from the sixth opening; and the difference value of the power of the laser detected by the laser power signal processor and the power of the laser detected by the first photoelectric signal converter is adopted to represent the laser power of the laser generator.

The technical scheme of the invention has the following beneficial effects:

1. according to the laser processing detection device provided by the invention, the laser generator is suitable for providing laser for the detection coupling cavity, the first reflector is suitable for reflecting the laser emitted by the laser generator to the first optical fiber, the laser is transmitted to the laser processing output component through the first optical fiber, the laser processing output component is suitable for carrying out laser processing on a workpiece and transmitting heat radiation infrared light emitted by the workpiece to the first optical fiber, the first optical fiber transmits the heat radiation infrared light to the detection coupling cavity, and the first reflector transmits the heat radiation infrared light. The infrared temperature detector is suitable for detecting the thermal radiation infrared transmitted by the first reflector and is used for acquiring the temperature of the processing action point of the laser on the surface of the workpiece. Because the detection coupling cavity is connected with the laser processing output component through the first optical fiber, even if the laser processing output component can have mechanical motion in the process of carrying out laser processing on a workpiece, the mechanical vibration has little influence on the detection coupling cavity, and the detection coupling cavity does not need to move, so the detection coupling cavity can keep a static state, correspondingly, the position of the first reflector cannot deviate, laser and thermal radiation infrared light are transmitted through the first optical fiber simultaneously, the radiation point of the thermal radiation infrared light emitted by the workpiece and detected by the infrared temperature detector is the same point as the action point of the laser on the surface of the workpiece, real coaxial detection is realized, the actual temperature of the processing action point of the laser on the surface of the workpiece can be accurately detected, the power of the laser can be effectively adjusted, and the surface of the workpiece is prevented from overheating and abnormal. Simultaneously, because laser and thermal radiation infrared light pass through first optic fibre and realize coaxial detection, first optical fiber connection is simple, the design cost of laser beam machining output unit reduces, machining precision and degree of difficulty reduce, need not do too much adjustment again after laser beam machining output unit has been installed, in the use, can avoid leading to the inaccurate problem of test because of laser beam machining output unit vibrations off normal, man-hour has been saved, laser beam machining detection device's the use degree of difficulty has been reduced, detection accuracy has been improved.

2. Further, the central axis of fourth opening and the coincidence of the central axis of first opening, first visible light is through first optic fibre and the coaxial transmission of laser from fourth opening incident to first opening in, first visible light is as the guide light that guides laser beam machining work piece actual action point, laser generator need not to produce the second visible light as the guide light like this, avoided the second visible light to incide to laser generator through first speculum reflection and increased the probability that laser generator damaged, laser beam machining detection device's life has been improved.

3. Furthermore, the laser processing detection device is suitable for representing the laser power of the laser generator by adopting the difference value of the laser power detected by the laser power signal processor and the laser power detected by the first photoelectric signal converter, so that the interference of diffuse reflection of the laser in the detection coupling cavity is eliminated, the detection precision of the laser power is improved, and the control of the laser generator power is facilitated.

4. Further, a seventh opening has still been seted up to the fourth chamber wall, and laser beam machining detection device still includes: a second opto-electrical signal converter that receives the first visible light reflected from the workpiece surface into the detection coupling cavity from the seventh opening; acquiring the ratio of the intensity of the first visible light received by the second photoelectric signal converter to the intensity of the first visible light emitted by the visible light emitting unit, and taking the ratio as the reflectivity of the surface of the workpiece; and acquiring the intensity of the laser reflected by the workpiece according to the intensity of the laser generated by the laser generator and the reflectivity of the surface of the workpiece, so as to determine the intensity of the laser reflected from the surface of the workpiece into the laser generator, and judging whether the laser generator has the risk of being burned by the reflected laser.

5. According to the working method of the laser processing detection device, the laser generator is suitable for providing laser for the detection coupling cavity, the first reflector is suitable for reflecting the laser emitted by the laser generator to the first optical fiber, the laser is transmitted to the laser processing output component through the first optical fiber, the laser processing output component is suitable for carrying out laser processing on a workpiece and transmitting heat radiation infrared light emitted by the workpiece to the first optical fiber, the first optical fiber transmits the heat radiation infrared light to the detection coupling cavity, and the first reflector penetrates through the heat radiation infrared light. The infrared temperature detector is used for detecting the temperature of a processing action point of the laser on the surface of the workpiece. Because the detection coupling cavity is connected with the laser processing output component through the first optical fiber, even if the laser processing output component can have mechanical motion in the process of carrying out laser processing on a workpiece, the mechanical vibration has little influence on the detection coupling cavity, and the detection coupling cavity does not need to move, so the detection coupling cavity can keep a static state, correspondingly, the position of the first reflector cannot deviate, laser and thermal radiation infrared light are transmitted through the first optical fiber simultaneously, the radiation point of the thermal radiation infrared light emitted by the workpiece and detected by the infrared temperature detector is the same point as the action point of the laser on the surface of the workpiece, real coaxial detection is realized, the actual temperature of the processing action point of the laser on the surface of the workpiece can be accurately detected, the power of the laser can be effectively adjusted, and the surface of the workpiece is prevented from overheating and abnormal. Simultaneously, because laser and thermal radiation infrared light pass through first optic fibre and realize coaxial detection, first optical fiber connection is simple, the design cost of laser beam machining output unit reduces, machining precision and degree of difficulty reduce, need not do too much adjustment again after laser beam machining output unit has been installed, in the use, can avoid leading to the inaccurate problem of test because of laser beam machining output unit vibrations off normal, man-hour has been saved, laser beam machining detection device's the use degree of difficulty has been reduced, detection accuracy has been improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural diagram of a laser processing detection apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a printed circuit board according to an embodiment of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two elements may be directly connected or indirectly connected through an intermediate medium, or may be communicated with each other inside the two elements, or may be wirelessly connected or wired connected. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

An embodiment of the present invention provides a laser processing detection apparatus, please refer to fig. 1, including:

detecting the coupling cavity 1;

a laser generator 3, wherein the laser generator 3 is suitable for providing laser to the detection coupling cavity 1;

the detection coupling cavity comprises a laser processing output component 2 and a first optical fiber 4, wherein the first optical fiber 4 is respectively connected with the laser processing output component 2 and the detection coupling cavity 1, and the laser processing output component 2 is suitable for carrying out laser processing on a workpiece and transmitting heat radiation infrared light emitted by the workpiece to the first optical fiber 4;

a first reflector 6 located in the detection coupling cavity 1, the first reflector 6 being adapted to reflect the laser light emitted by the laser generator 3 into the first optical fiber 4, the first reflector 6 being further adapted to transmit the thermal radiation infrared light;

an infrared temperature detector 20 positioned at the side of the detection coupling cavity 1; the infrared temperature detector 20 is adapted to detect the radiant infrared light transmitted from the first reflecting mirror 6.

A second mirror 7 located in the detection coupling cavity 1, the second mirror 7 being adapted to reflect the thermal radiation infrared light transmitted from the first mirror 6 to the infrared temperature detector 20.

The surface of the first reflector 6 is plated with a laser reflection film and a thermal radiation infrared light antireflection film. Note that even if the surface of the first reflecting mirror 6 is coated with the laser reflecting film, a small amount of laser light can pass through the first reflecting mirror 6. The laser reflection film and the thermal radiation infrared light antireflection film are arranged in a laminated manner in a direction perpendicular to the surface of the first reflecting mirror 6, and the positions of the laser reflection film and the thermal radiation infrared light antireflection film can be interchanged.

The laser reflection film enables the reflectivity of the first reflecting mirror 6 to laser generated by the laser generator to be larger than the transmittance of the first reflecting mirror 6 to the laser generated by the laser generator, and the thermal radiation infrared light antireflection film enables the transmittance of the first reflecting mirror 6 to thermal radiation infrared light on the surface of a workpiece to be larger than the reflectivity of the first reflecting mirror 6 to the thermal radiation infrared light on the surface of the workpiece. In a specific embodiment, the reflectivity of the first reflecting mirror 6 to the laser light generated by the laser generator is 99% to 99.99%, for example, 99%, 99.1%, 99.3%, 99.5%, 99.7%, 99.8%, 99.9%, 99.95% or 99.99%, and the transmittance of the first reflecting mirror 6 to the laser light generated by the laser generator is 0.01% to 1%, for example, 0.01%, 0.03%, 0.05%, 0.07%, 0.1%, 0.2%, 0.3%, 0.5%, 0.7%, 0.9% or 1%; the transmittance of the first reflecting mirror 6 for the heat radiation infrared light of the workpiece surface is 95% to 99.99%, for example, 95%, 97%, 98%, 99%, 99.8%, 99.9%, 99.95%, or 99.99%. And the surface of the second reflector 7 is plated with a laser antireflection film and a thermal radiation infrared reflection film. The second laser antireflection film and the thermal radiation infrared reflection film are arranged in a stacked manner in a direction perpendicular to the surface of the second reflecting mirror 7, and the positions of the second laser antireflection film and the thermal radiation infrared reflection film can be interchanged.

The laser antireflection film enables the transmittance of the second reflector 7 for laser generated by the laser generator to be larger than the reflectance of the second reflector 7 for the laser generated by the laser generator, and the thermal radiation infrared reflection film enables the reflectance of the second reflector 7 for thermal radiation infrared light on the surface of a workpiece to be larger than the transmittance of the second reflector 7 for the thermal radiation infrared light on the surface of the workpiece. In a specific embodiment, the second reflecting mirror 7 has a transmittance of 99% to 99.99%, for example, 99%, 99.1%, 99.3%, 99.5%, 99.7%, 99.8%, 99.9%, 99.95%, or 99.99% of the laser light generated by the laser generator, and the second reflecting mirror 7 has a reflectance of 0.01% to 1%, for example, 0.01%, 0.03%, 0.05%, 0.07%, 0.1%, 0.2%, 0.3%, 0.5%, 0.7%, 0.9%, or 1% of the laser light generated by the laser generator; the reflectivity of the second reflecting mirror 7 to the heat radiation infrared light on the surface of the workpiece is 99% to 99.99%, for example, 99%, 99.1%, 99.3%, 99.5%, 99.7%, 99.8%, 99.9%, 99.95%, or 99.99%; the second reflecting mirror 7 has a transmittance of 95% to 99.99%, for example, 95%, 97%, 98%, 99%, 99.8%, 99.9%, 99.95%, or 99.99% for the heat-radiated infrared light on the surface of the workpiece.

In this embodiment, an included angle between the surface of the first reflecting mirror 6 and the laser beam emitted from the laser generator 3 to the surface of the first reflecting mirror 6 is 45 degrees, and an included angle between the laser beam reflected by the first reflecting mirror 6 and the surface of the first reflecting mirror 6 is 45 degrees. The laser reflection film and the thermal radiation infrared light antireflection film are optimally arranged at the angle.

In this embodiment, an included angle between the surface of the second reflecting mirror 7 and the laser beam irradiated to the surface of the second reflecting mirror 7 is 45 degrees, and an included angle between the thermal radiation infrared beam reflected by the second reflecting mirror 7 and the surface of the second reflecting mirror 7 is 45 degrees. The second laser antireflection film and the thermal radiation infrared reflection film are optimally arranged at the angle.

Therefore, in the actual operation process, the first reflecting mirror 6 and the second reflecting mirror 7 are required to operate under the angle, and if the first reflecting mirror 6 and the second reflecting mirror 7 are deviated in the emission position, the transmission of the laser light and the transmission of the thermal radiation infrared light are affected.

The wall of the detection coupling cavity 1 is provided with a first opening 12, a second opening 13 and a third opening 14.

One end of the first optical fiber 4 is connected to the first opening 12, and the other end of the first optical fiber 4 is connected to the laser processing output member 2.

The laser processing detection device further comprises: a second optical fiber 5, one end of the second optical fiber 5 is connected with the laser generator 3, and the other end of the second optical fiber 5 is positioned in the second opening 13.

For coupling efficiency, the diameter of the first optical fiber 4 is larger than the diameter of the second optical fiber 5, and in one embodiment, the first optical fiber 4 is a double-ended D80 stub optical fiber and the second optical fiber 5 is a single-ended SMA905 optical fiber.

The first mirror 6 is adapted to reflect the laser light from the second opening 13 to the first opening 12.

The second mirror 7 is located on a side of the first mirror 6 facing away from the first opening 12, the second mirror 7 is adapted to reflect thermal radiation infrared light to the third opening 14, and the infrared temperature detector 20 faces the third opening 14.

The detection coupling cavity 1 is provided with a third cavity wall 10, a first cavity wall 8 and a second cavity wall 9 which are oppositely arranged; the third cavity wall 10 is located between the first cavity wall 8 and the second cavity wall 9 and is connected with the first cavity wall 8 and the second cavity wall 9; the third cavity wall 10 defines the first opening 12, and the second cavity wall 9 defines the second opening 13.

The first cavity wall 8 or the second cavity wall 9 is provided with the third opening 14.

In this embodiment, the third opening 14 is opened on the first cavity wall 8, and the second reflector 7 is perpendicular to the first reflector 6; in other embodiments, the second cavity wall 9 has the third opening 14, and the second reflector 7 is parallel to the first reflector 6.

The detection coupling cavity 1 further has a fourth cavity wall 11 disposed opposite to the third cavity wall 10, and the fourth cavity wall 11 is located between the first cavity wall 8 and the second cavity wall 9 and connected to the first cavity wall 8 and the second cavity wall 9.

A fourth opening 15 is formed in the fourth cavity wall 11, and the central axis of the fourth opening 15 coincides with the central axis of the first opening 12. First visible light is incidenting through first optic fibre 4 and laser coaxial transmission in first opening 12 from fourth opening 15, and first visible light is as the guide light that guides the actual action point of laser beam machining work piece, and laser generator 3 need not to produce the second visible light as the guide light like this, has avoided the second visible light to incide to laser generator 3 through first speculum 6 reflection and has increased the probability that laser generator 3 damaged, has improved laser beam machining detection device's life.

The laser processing detection device further comprises: a visible light emitting unit 37, said visible light emitting unit 37 facing said fourth opening 15, said visible light emitting unit 37 being adapted to emit first visible light. In the present embodiment, the visible light emitting unit 37 includes a low power laser with a collimating optical system.

The second mirror 7 is adapted to transmit the first visible light, and the first mirror 6 is adapted to transmit the first visible light.

Laser generator 3 includes laser generator and visible light generator (not shown in the figure), visible light generator can be independent of laser generator work, laser generator is suitable for producing laser, visible light generator is suitable for producing the second visible light, the second visible light be suitable for in-process at the position of debugging first speculum 6 with the laser that laser generator produced mixes the emission together, first visible light with the wavelength of second visible light is not the same, for example, first visible light is the blue light, and the second visible light is the green glow. In this embodiment, the visible light generating section includes a low-power laser with a collimating optical system.

The first cavity wall 8 is further provided with a fifth opening 16, and the central axis of the fifth opening 16 is overlapped with the central axis of the second opening 13; the first mirror 6 is further adapted to transmit a portion of the laser light incident from the second opening 13 to the fifth opening 16.

The laser processing detection device further comprises: and the laser power signal processor 19 is positioned on the side, opposite to the second cavity wall 9, of the first cavity wall 8 and opposite to the fifth opening 16.

A sixth opening 17 is further formed in the second cavity wall 9, and the sixth opening 17 and the second opening 13 are arranged at an interval.

The laser processing detection device further comprises: and the first photoelectric signal converter 21 is positioned on one side of the second cavity wall 9, which faces away from the first cavity wall 8, and is opposite to the sixth opening 17. In this embodiment, an attenuation sheet for filtering out the first visible light is further disposed on a side of the first optoelectronic signal converter 21 facing the detection coupling cavity 1, so as to prevent the first visible light from interfering with the detection of the first optoelectronic signal converter 21.

The laser processing detection device is suitable for representing the laser power of the laser generator 3 by adopting the difference value of the power of the laser detected by the laser power signal processor 19 and the power of the laser detected by the first photoelectric signal converter 21. Therefore, the interference of diffuse reflection of the laser in the detection coupling cavity 1 is eliminated, the detection precision of the detection laser power is improved, and the control of the power of the laser generator 3 is facilitated.

The fourth cavity wall 11 further defines a seventh opening 18, the seventh opening 18 is spaced from the fourth opening 15, and the seventh opening 18 is adapted to receive the first visible light reflected from the workpiece surface into the detection coupling cavity 1.

The laser processing detection device further comprises: a second optical-to-electrical signal converter 22, located on a side of the fourth cavity wall 11 facing away from the third cavity wall 10 and opposite to the seventh opening 18; a filter 27 located between the second mirror 7 and the seventh opening 18 and between the second mirror 7 and the fourth opening 15, wherein the filter 27 is adapted to selectively transmit the first visible light, and the wavelength of the first visible light is different from the wavelength of the thermal radiation infrared light. The filter 27 attenuates the light beam entering the second optical-to-electrical signal converter 22, so as to avoid the second optical-to-electrical signal converter 22 from being damaged by the light beam with high intensity. More importantly, the filter 27 selectively transmits the first visible light, and the filter 27 filters out other signals except for the signal of the first visible light, such as laser and thermal radiation infrared light, so that the signal received by the second photoelectric signal converter is from the first visible light, and then the ratio of the intensity of the first visible light received by the second photoelectric signal converter to the intensity of the first visible light emitted by the visible light emitting unit is obtained, and the ratio is used as the reflectivity of the surface of the workpiece, so that the reflectivity of the surface of the workpiece can be better represented.

Laser beam machining detection device still includes: a first collimator lens 24 located in the detection coupling cavity 1, the first collimator lens 24 being located on an optical path from the second opening 13 to the first reflector 6; a first focusing mirror 23, the first focusing mirror 23 being located on an optical path from the first reflecting mirror 6 to the first opening 12.

The laser processing output component 2 is provided with a second collimating mirror 26 and a second focusing mirror 25, and the second collimating mirror 26 is located between the second focusing mirror 25 and the joint of the first optical fiber 4 and the laser processing output component 2.

Referring to fig. 2, the laser processing detection apparatus further includes:

a printed circuit board 28.

An infrared temperature detection interface 29 located at an edge of the printed circuit board 28, wherein the infrared temperature detection interface 29 is electrically connected to the printed circuit board 28 and is adapted to be connected to the infrared temperature detector 20.

A first optical power detection interface 30 located at an edge of the printed circuit board 28, wherein the first optical power detection interface 30 is electrically connected to the printed circuit board 28 and is adapted to be connected to the first optical-to-electrical signal converter 21.

A second optical power detection interface 31 located at an edge of the printed circuit board 28, wherein the second optical power detection interface 31 is electrically connected to the printed circuit board 28 and is adapted to be connected to the second optical-to-electrical signal converter 22.

A laser power detection interface 32 located at an edge of the printed circuit board 28, the laser power detection interface 32 being electrically connected to the printed circuit board 28 and adapted to be connected to the laser power signal processor 19.

The laser generator 3 interface is positioned at the edge position of the printed circuit board 28, and the laser generator 3 interface is electrically connected with the printed circuit board 28 and is suitable for being connected with the laser generator 3.

A power interface 33 located at an edge of the printed circuit board 28, the power interface 33 being electrically connected to the printed circuit board 28.

A control computer (not shown) adapted to process the signals in the printed circuit board 28.

A data transfer port 34 located at an edge of the printed circuit board 28, the data transfer port 34 being electrically connected to the printed circuit board 28, the data transfer port 34 being adapted to be connected to a control computer and to transfer signals between the control computer and the printed circuit board 28.

The trigger switch 35 is located at an edge of the printed circuit board 28, the trigger switch 35 is electrically connected to the printed circuit board 28, and the trigger switch 35 is adapted to control the laser processing detection apparatus to start or stop working.

The laser beam machining detection device that this embodiment provided, laser generator be suitable for detect the coupling cavity and provide laser, first speculum 6 be suitable for with the laser reflection of 3 launches of laser generator extremely in the first optic fibre 4, laser is transmitted to laser beam machining output part 2 through first optic fibre 4, and laser beam machining output part 2 is suitable for to carry out laser beam machining and transmit the heat radiation infrared light that the work piece sent extremely to first optic fibre 4, first optic fibre 4 transmits heat radiation infrared light to detecting the coupling cavity 1 in, first speculum 6 sees through heat radiation infrared light. The infrared temperature detector 20 is used for detecting the temperature of the processing action point of the laser on the surface of the workpiece. Because the detection coupling cavity 1 is connected with the laser processing output component 2 through the first optical fiber 4, even if the laser processing output component 2 has mechanical movement in the process of carrying out laser processing on a workpiece, but the mechanical vibration has little influence on the detection coupling cavity 1, the detection coupling cavity 1 does not need to move, therefore, the detection coupling cavity 1 can keep a static state, correspondingly, the position of the first reflector 6 cannot be relatively deviated, laser and thermal radiation infrared light are transmitted through the first optical fiber 4 at the same time, the radiation point of the thermal radiation infrared light emitted by the workpiece and detected by the infrared temperature detector 20 and the action point of the laser on the surface of the workpiece are the same point, real coaxial detection is realized, the actual temperature of the processing action point of the laser on the surface of the workpiece can be accurately detected, the power of the laser can be effectively adjusted, and overheating abnormality on the surface of the workpiece is prevented. Simultaneously, because laser and thermal radiation infrared light pass through first optic fibre 4 and realize coaxial detection, first optic fibre 4 is connected simply, the design cost of laser beam machining output unit 2 reduces, machining precision and difficult degree reduce, need not do too much adjustment again after laser beam machining output unit 2 is installed, in the use, can avoid leading to the inaccurate problem of test because of laser beam machining output unit 2 vibrations off normal, man-hour has been saved, laser beam machining detection device's the use degree of difficulty has been reduced. The laser processing detection device integrates multiple functions of laser power detection, laser processing temperature detection, visible light guiding and laser return light detection, and improves the detection precision.

Another embodiment of the present invention provides a working method of a laser processing detection apparatus, including:

the laser generator 3 provides laser for the detection coupling cavity 1;

the first reflecting mirror 6 reflects the laser light emitted by the laser generator 3 into the first optical fiber 4;

the first optical fiber 4 transmits laser to the laser processing output component 2;

the laser processing output component 2 carries out laser processing on the workpiece and transmits thermal radiation infrared light emitted by the workpiece to the first optical fiber 4;

the first reflector 6 transmits the thermal radiation infrared light transmitted by the first optical fiber 4;

the infrared thermal detector 20 is used to detect the radiant infrared light transmitted from the first reflecting mirror 6.

The second reflecting mirror 7 reflects the radiant infrared light transmitted from the first reflecting mirror 6 to the infrared temperature detector 20.

The working method of the laser processing detection device further comprises the following steps: the position of the first mirror 6 is adjusted and the first mirror 6 is fixed at the first position.

The method of adjusting the position of the first mirror 6 and fixing the first mirror 6 in the first position comprises: the laser generator 3 mixes the second visible light and the laser and emits the mixture to the surface of the first reflector 6; adjusting the position of the first mirror 6 until the second visible light is observed at the surface of the workpiece; determining the position of the first mirror 6 as a first position when the second visible light is observed on the surface of the workpiece; after the first position of the first reflecting mirror 6 is determined, the visible light generating unit is turned off.

The laser processing detection device comprises a second reflecting mirror 7 positioned in the detection coupling cavity 1;

the step of said infrared temperature detector 20 being adapted to detect the bolometric infrared light transmitted from the first mirror 6 comprises: the second reflecting mirror 7 reflects the radiant infrared light transmitted from the first reflecting mirror 6 to the infrared temperature detector 20.

The working method of the laser processing detection device further comprises the following steps: the visible light emitting unit 37 emits a first visible light toward the fourth opening 15, the first visible light is transmitted to the first opening 12 through the second reflecting mirror 7 and the first reflecting mirror 6, and the first optical fiber 4 transmits the first visible light to the laser processing output part 2; the laser processing output part 2 outputs a first visible light to the surface of the workpiece while outputting the laser light; the first visible light on the surface of the workpiece directs the laser processing output component 2 to laser process the workpiece.

The working method of the laser processing detection device further comprises the following steps: and detecting the intensity of the laser reflected by the workpiece.

The method for detecting the intensity of the laser reflected by the workpiece comprises the following steps: the second optical-to-electrical signal converter 22 receives the first visible light reflected from the workpiece surface into the detection coupling cavity 1 from the seventh opening 18; acquiring the ratio of the intensity of the first visible light received by the second photoelectric signal converter 22 to the intensity of the first visible light emitted by the visible light emitting unit 37, and taking the ratio as the reflectivity of the surface of the workpiece; the intensity of the laser light reflected by the workpiece is obtained according to the intensity of the laser light generated by the laser generator 3 and the reflectivity of the surface of the workpiece. Thereby determining the intensity of the laser light reflected from the surface of the workpiece into the laser generator 3 and judging whether the laser generator 3 risks being burned by the reflected laser light.

The working method of the laser processing detection device further comprises the following steps: the laser power generated by the laser generator 3 is detected.

The method for detecting the power of the laser generated by the laser generator 3 comprises the following steps: the first reflector 6 transmits part of the laser beam incident from the second opening 13 to the fifth opening 16, and the laser power signal processor 19 detects the power of the laser beam at the fifth opening 16, in this embodiment, the laser power signal processor 19 is a mechanical device capable of performing fine adjustment according to the actual position of the laser beam at the fifth opening 16; the first photoelectric signal converter 21 detects the laser light diffusely reflected in the detection coupling cavity 1 from the sixth opening; and the difference value of the power of the laser detected by the laser power signal processor 19 and the power of the laser detected by the first photoelectric signal converter 21 is used for representing the laser power of the laser generator 3.

According to the working method of the laser processing detection device provided by the embodiment, the laser generator is suitable for providing laser for the detection coupling cavity, the first reflecting mirror 6 is suitable for reflecting the laser emitted by the laser generator 3 to the first optical fiber 4, the laser is transmitted to the laser processing output component 2 through the first optical fiber 4, the laser processing output component 2 is suitable for carrying out laser processing on a workpiece and transmitting heat radiation infrared light emitted by the workpiece to the first optical fiber 4, the first optical fiber 4 transmits the heat radiation infrared light to the detection coupling cavity 1, and the first reflecting mirror 6 transmits the heat radiation infrared light. The infrared temperature detector 20 is used for detecting the temperature of the processing action point of the laser on the surface of the workpiece, and in the embodiment, the infrared temperature detector 20 is a mechanical device which can be finely adjusted according to the actual position of the heat radiation infrared light at the third opening 14. Because the detection coupling cavity 1 is connected with the laser processing output component 2 through the first optical fiber 4, even if the laser processing output component 2 has mechanical movement in the process of carrying out laser processing on a workpiece, but the mechanical vibration has little influence on the detection coupling cavity 1, the detection coupling cavity 1 does not need to move, therefore, the detection coupling cavity 1 can keep a static state, correspondingly, the position of the first reflector 6 cannot be relatively deviated, laser and thermal radiation infrared light are transmitted through the first optical fiber 4 at the same time, the radiation point of the thermal radiation infrared light emitted by the workpiece and detected by the infrared temperature detector 20 and the action point of the laser on the surface of the workpiece are the same point, real coaxial detection is realized, the actual temperature of the processing action point of the laser on the surface of the workpiece can be accurately detected, the power of the laser can be effectively adjusted, and overheating abnormality on the surface of the workpiece is prevented. Simultaneously, because laser and thermal radiation infrared light pass through first optic fibre 4 and realize coaxial detection, first optic fibre 4 is connected simply, the design cost of laser beam machining output unit 2 reduces, machining precision and difficult degree reduce, need not do too much adjustment again after laser beam machining output unit 2 is installed, in the use, can avoid leading to the inaccurate problem of test because of laser beam machining output unit 2 vibrations off normal, man-hour has been saved, laser beam machining detection device's the use degree of difficulty has been reduced. The laser processing detection device integrates multiple functions of laser power detection, laser processing temperature detection, visible light guiding and laser return light detection, and improves the detection precision.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.