CN116222960A - Laser copying tester - Google Patents

Abstract

The application discloses laser-beam copying tester, this laser-beam copying tester includes: the laser access device comprises a light inlet and a light outlet, wherein the light inlet of the laser access device is connected with laser equipment to be copied, the laser access device is allowed to move between a first position corresponding to the detection opening of the laser detection device and a second position corresponding to the absorption opening of the laser absorption device under the driving of the mobile device, and the problems that in the related art, the copying test efficiency of the laser equipment is low and the like are solved.

Description

Laser copying tester

Technical Field

The application relates to the technical field of lasers, in particular to a laser copying tester.

Background

The laser equipment is required to be subjected to a copying test in the manufacturing process, wherein the copying test is to test the duration and the capability of stable output of the laser equipment while maintaining the laser power output by the laser equipment at a value meeting the requirements;

at present, before formally performing copying test on laser equipment, the power value of an output optical cable head of the laser equipment needs to be adjusted to a value meeting the requirement, then the output optical cable head is manually pulled out, and then the light outlet of the output optical cable head is shifted to a cavity head aligned with an absorption cavity, and then copying test is started. Among them, above-mentioned output optical cable head shift in-process need be to the repeated plug of output optical cable head, and not only complex operation is wasted time, leads to output optical cable fish tail very easily moreover, and output optical cable obvious mar can influence the light quality, in addition, in output optical cable head shift in-process, can introduce extra dust and get into the test environment of copying machine, in order to avoid causing the pollution to the accurate optical lens that the test of copying machine used, need take time manpower clean optical lens surface.

Aiming at the problems of low efficiency and the like of copying test on laser equipment in the related art, no effective solution has been proposed yet.

Disclosure of Invention

The embodiment of the application provides a laser copying tester, which at least solves the problems of lower copying test efficiency and the like of laser equipment in the related technology.

According to an embodiment of the present application, there is provided a laser-machine tester including: the laser detection device, the laser absorption device, the laser access device and the mobile device, wherein,

the laser access device is arranged on the mobile device and comprises a light inlet and a light outlet, the light inlet of the laser access device is connected with laser equipment to be copied, the laser access device is allowed to move between a first position corresponding to a detection port of the laser detection device and a second position corresponding to a suction port of the laser absorption device under the driving of the mobile device, the light outlet of the laser access device faces the detection port of the laser detection device when the laser access device is positioned at the first position, and the light outlet of the laser access device faces the suction port of the laser absorption device when the laser access device is positioned at the second position;

the laser detection device is used for adjusting the laser output by the laser equipment to meet the copying condition;

the laser absorbing device is used for absorbing laser incident from the absorbing port in the process of copying the laser equipment.

Optionally, the laser detection device includes: the position calibration module is deployed on the detection port on the laser detection module;

the position calibration module is used for calibrating the laser output by the light outlet of the laser access device into the detection port;

the laser detection module is used for adjusting the laser output by the laser equipment to meet the copying condition according to the laser received by the detection port.

Optionally, the position calibration module includes: the laser detection module comprises a laser detection port, a light target element and a processor, wherein the light target element is arranged on the detection port on the laser detection module, and the processor is connected with the light target element;

the light target element is used for collecting the irradiation position of the laser output by the light outlet of the laser access device;

the processor is used for acquiring the irradiation position; and controlling the moving device to move according to the irradiation position until the irradiation position is positioned at the position where the detection port is positioned.

Optionally, a moving component is disposed on the light target element, wherein the processor is further connected with the moving component;

the processor is further used for controlling the moving component to withdraw the light target element from the detection port under the condition that the irradiation position is located at the position of the detection port.

Optionally, the position calibration module further includes: an infrared camera, wherein a shooting view of the infrared camera covers a position where the light target element is located;

the infrared camera is used for shooting pictures of the light target element and transmitting the shot pictures to the processor;

the processor is used for acquiring the irradiation position from the picture transmitted by the infrared camera.

Optionally, the laser copying tester further includes: the processing chip is respectively connected with the laser detection device, the laser access device and the mobile device;

the processing chip is used for controlling the mobile device to move the laser access device to the first position; adjusting the laser output by the laser equipment to meet the copying condition according to the laser parameters detected by the laser detection device; and controlling the moving device to move the laser access device to the second position.

Optionally, the processing chip is configured to:

after the mobile device is controlled to move the laser access device to the first position, controlling a light outlet of the laser access device to be opened;

controlling a light outlet of the laser access device to be closed under the condition that laser output by the laser equipment meets the copying condition;

after the light outlet of the laser access device is confirmed to be closed, controlling the moving device to move the laser access device to the second position;

and controlling the opening of the light outlet of the laser access device.

Optionally, the processing chip is configured to:

determining the first position matching device parameters of the laser device;

and controlling the moving device to move the laser access device to the first position.

Optionally, the mobile device includes: a motion rail including one or more axes of motion and a stationary assembly allowing movement along each of the axes of motion;

the fixing component is used for fixing the laser access device.

Optionally, the laser copying tester further includes: a spectral signal detection device, wherein a detection area of the spectral signal detection device covers the laser detection device;

the spectrum signal detection device is configured to detect a spectrum parameter and a wavelength parameter of laser in the detection area, where the spectrum parameter is used to instruct to adjust laser output by the laser device to a target spectrum parameter, and the wavelength parameter is used to instruct to adjust laser output by the laser device to a target wavelength parameter, and the copying condition includes: the laser detection device is used for detecting the laser power.

In an embodiment of the present application, a laser-light printer tester includes: the laser access device is arranged on the mobile device and comprises a light inlet and a light outlet, the light inlet of the laser access device is connected with laser equipment to be copied, the laser access device is allowed to move between a first position corresponding to the detection opening of the laser detection device and a second position corresponding to the absorption opening of the laser absorption device under the driving of the mobile device, the light outlet of the laser access device faces the detection opening of the laser detection device when the laser access device is located at the first position, and the light outlet of the laser access device faces the absorption opening of the laser absorption device when the laser access device is located at the second position; the laser detection device is used for adjusting the laser output by the laser equipment to meet the copying condition; a laser absorber for absorbing laser light incident from an absorption port in the process of performing a copying test on a laser apparatus, i.e., a laser copying tester comprising: the laser equipment is characterized by comprising a laser detection device, a laser absorption device, a laser access device and a moving device, wherein the laser detection device is used for adjusting laser output by the laser equipment to meet the copying condition, the laser absorption device is used for absorbing laser incident from the absorption port in the process of copying the laser equipment, the light outlet of the laser access device faces the detection port of the laser detection device when the laser access device is positioned at the first position, and the light outlet of the laser access device faces the absorption port of the laser absorption device when the laser access device is positioned at the second position, so that the laser equipment is allowed to move between a first position corresponding to the detection port of the laser detection device and a second position corresponding to the absorption port of the laser absorption device under the driving of the moving device, the laser detection device is used for adjusting laser output by the laser equipment to meet the copying condition, the laser input from the absorption port is used for absorbing the laser incident from the absorption port in the process of copying the laser equipment, the laser access device is positioned at the first position, the light outlet of the laser access device faces the absorption port of the laser absorption device when the laser access device is positioned at the second position, and the laser equipment is not required to be repeatedly copied to the laser equipment to be moved to the copying condition after the laser equipment is subjected to the copying test, and the laser equipment is automatically adjusted to the laser input by the copying device. By adopting the technical scheme, the problems of lower efficiency and the like of copying test on the laser equipment in the related technology are solved, and the technical effect of improving the efficiency of copying test on the laser equipment is realized.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application.

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the description of the embodiments or the prior art will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic diagram of a laser printer tester according to an embodiment of the present application;

fig. 2 is a schematic structural view of a laser detection device according to an embodiment of the present application;

FIG. 3 is a schematic diagram of a position calibration module according to an embodiment of the present application;

FIG. 4 is a schematic diagram of the structure of a light target element according to an embodiment of the present application;

FIG. 5 is a second schematic diagram of a position calibration module according to an embodiment of the present application;

FIG. 6 is a schematic diagram II of a laser printer tester according to an embodiment of the present application;

FIG. 7 is a schematic diagram of a mobile device according to an embodiment of the present application;

fig. 8 is a front view and a top view of a laser printer tester according to an embodiment of the present application.

Detailed Description

In order to make the present application solution better understood by those skilled in the art, the following description will be made in detail and with reference to the accompanying drawings in the embodiments of the present application, it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, shall fall within the scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this embodiment, a laser copying tester is provided, fig. 1 is a schematic structural diagram of a laser copying tester according to an embodiment of the present application, as shown in fig. 1, including: the laser access device 106 comprises a light inlet and a light outlet, the light inlet of the laser access device 106 is connected with laser equipment to be copied, the laser access device 106 is allowed to move between a first position corresponding to the detection opening of the laser detection device 102 and a second position corresponding to the absorption opening of the laser absorption device 104 under the driving of the mobile device 108, the light outlet of the laser access device 106 faces the detection opening of the laser detection device 102 when the laser access device 106 is positioned at the first position, and the light outlet of the laser access device 106 faces the absorption opening of the laser absorption device 104 when the laser access device 106 is positioned at the second position;

a laser detection device 102 for adjusting the laser output by the laser equipment to meet the copying condition;

the laser absorber 104 absorbs laser light incident from the absorption port during a copying test of the laser device.

Through the steps, the laser copying tester comprises: the laser equipment is characterized by comprising a laser detection device, a laser absorption device, a laser access device and a moving device, wherein the laser detection device is used for adjusting laser output by the laser equipment to meet the copying condition, the laser absorption device is used for absorbing laser incident from the absorption port in the process of copying the laser equipment, the light outlet of the laser access device faces the detection port of the laser detection device when the laser access device is positioned at the first position, and the light outlet of the laser access device faces the absorption port of the laser absorption device when the laser access device is positioned at the second position, so that the laser equipment is allowed to move between a first position corresponding to the detection port of the laser detection device and a second position corresponding to the absorption port of the laser absorption device under the driving of the moving device, the laser detection device is used for adjusting laser output by the laser equipment to meet the copying condition, the laser input from the absorption port is used for absorbing the laser incident from the absorption port in the process of copying the laser equipment, the laser access device is positioned at the first position, the light outlet of the laser access device faces the absorption port of the laser absorption device when the laser access device is positioned at the second position, and the laser equipment is not required to be repeatedly copied to the laser equipment to be moved to the copying condition after the laser equipment is subjected to the copying test, and the laser equipment is automatically adjusted to the laser input by the copying device. By adopting the technical scheme, the problems of lower efficiency and the like of copying test on the laser equipment in the related technology are solved, and the technical effect of improving the efficiency of copying test on the laser equipment is realized.

In an exemplary embodiment, fig. 2 is a schematic structural diagram of a laser detection device according to an embodiment of the present application, and as shown in fig. 2, the laser detection device 102 includes: a position calibration module 102-2 and a laser detection module 102-4, wherein the position calibration module 102-2 is disposed on the detection port on the laser detection module 102-4; the position calibration module 102-2 is configured to calibrate the laser output from the light outlet of the laser access device 106 to the detection port; the laser detection module 102-4 is configured to adjust, according to the laser received by the detection port, the laser output by the laser device to meet the copying condition.

In an alternative embodiment, the laser output by the laser device enters the laser detection module 102-4 through the detection port of the laser detection module 102-4 to detect the laser parameter, where the laser parameter may be, but is not limited to, a power parameter, a size parameter, and the like, and after detecting the laser parameter of the laser output by the current laser device, the laser output by the laser device may be adjusted until the laser output by the laser device is adjusted to meet the copying condition, where the copying condition may be, but is not limited to, a power condition, that is, after adjusting the laser output by the laser device to a target power, a copying test is performed.

In an exemplary embodiment, fig. 3 is a schematic structural diagram of a position calibration module according to an embodiment of the present application, and as shown in fig. 3, the position calibration module 102-2 includes: a light target element 102-22 and a processor 102-24, wherein the light target element 102-22 is disposed on the detection port on the laser detection module 102-4, and the processor 102-24 is connected with the light target element 102-22; the optical target elements 102-22 are configured to collect an irradiation position of the laser output from the light outlet of the laser access device 106; the processor 102-24 is configured to obtain the irradiation position; and controlling the moving device 108 to move according to the irradiation position until the irradiation position is positioned at the position of the detection port.

In an alternative embodiment, in the beginning stage, the irradiation position of the laser light output by the light emitting port of the laser light access device 106 collected by the light target element 102-22 is in "state 1", that is, the irradiation position is not in the position where the detection port is located, and the moving device 108 may be controlled to move according to the irradiation position until the irradiation position is in "state 2", that is, the irradiation position is in the position where the detection port is located, where in the case where the irradiation position is in the position where the detection port is located, the position calibration module 102-2 is removed, and the laser light will directly enter the laser light detection module 102-4 through the detection port.

In an exemplary embodiment, fig. 4 is a schematic structural diagram of a light target element according to an embodiment of the present application, where, as shown in fig. 4, a moving component is disposed on the light target element 102-22, where the processor 102-24 is further connected to the moving component; the processor 102-24 is further configured to control the moving member to withdraw the light target element 102-22 from the detection port if the irradiation position is located at the detection port.

In an alternative embodiment, in the case where the irradiation position of the laser is in "state 2", that is, the irradiation position is located at the position of the detection port, the moving member is controlled to withdraw the optical target element 102-22 from the detection port to reach "state 3", at which time the laser may directly enter the laser detection module 102-4 through the detection port.

In an alternative embodiment, the laser is calibrated by the optical target element to position the laser output against the detection port, and then the optical target element is removed in a sagged state. The laser irradiates the laser detection module so as to detect whether the laser output parameters meet the requirements.

In an exemplary embodiment, fig. 5 is a second schematic structural diagram of a position calibration module according to an embodiment of the present application, as shown in fig. 5, the position calibration module 102-2 further includes: an infrared camera 102-26, wherein a field of view of the infrared camera 102-26 covers a location of the light target element 102-22; the infrared camera 102-26 is configured to take a picture of the light target element 102-22 and transmit the taken picture to the processor 102-24; the processor 102-24 is configured to obtain the illumination location from a picture transmitted by the infrared camera 102-26.

In an exemplary embodiment, fig. 6 is a schematic diagram of a second structure of a laser copying tester according to an embodiment of the present application, as shown in fig. 6, and further includes: a processing chip, wherein the processing chip is respectively connected with the laser detection device 102, the laser access device 106 and the mobile device 108; the processing chip is configured to control the moving device 108 to move the laser access device 106 to the first position; adjusting the laser output by the laser equipment to meet the copying condition according to the laser parameters detected by the laser detection device 102; the moving means 108 is controlled to move the laser access means 106 to the second position.

In an exemplary embodiment, as shown in fig. 6, the processing chip is further configured to: after controlling the moving device 108 to move the laser access device 106 to the first position, controlling a light outlet of the laser access device 106 to be opened; controlling the light outlet of the laser access device 106 to be closed under the condition that the laser output by the laser equipment meets the copying condition; after confirming that the light outlet of the laser access device 106 is closed, controlling the moving device 108 to move the laser access device 106 to the second position; and controlling the opening of the light outlet of the laser access device 106.

In an exemplary embodiment, the processing chip is configured to: determining the first position matching device parameters of the laser device; the moving means 108 is controlled to move the laser access means 106 to the first position.

In an alternative embodiment, the device parameters may include, but are not limited to, size parameters and operation parameters of the device, and laser parameters output by different models of devices during operation may be different, so that distances between different lasers and the laser detection device need to be adjusted accordingly when detecting power, i.e., the first position may need to be adjusted according to the device parameters.

In an exemplary embodiment, fig. 7 is a schematic structural diagram of a mobile device according to an embodiment of the present application, and as shown in fig. 7, the mobile device 108 includes: a motion rail 108-2 and a fixed assembly 108-4, the motion rail 108-2 including one or more axes of motion, the fixed assembly 108-4 allowing movement along each of the axes of motion; the fixing component 108-4 is configured to fix the laser access device 106.

In one exemplary embodiment, the laser-photocopier tester further comprises: a spectral signal detection device 108, wherein a detection area of the spectral signal detection device 108 covers the laser detection device 102; the spectrum signal detecting apparatus 108 is configured to detect a spectrum parameter and a wavelength parameter of the laser in the detection area, where the spectrum parameter is used to instruct to adjust the laser output by the laser device to a target spectrum parameter, and the wavelength parameter is used to instruct to adjust the laser output by the laser device to a target wavelength parameter, and the copying condition includes: the laser detection device 102 is configured to detect the laser power, and is configured to constrain a target laser power of the laser device, the target spectral parameter and the target wavelength parameter.

In an alternative embodiment, the copying condition may be, but is not limited to, a parameter condition that the laser needs to reach before the copying test is performed, for example, may include, but not limited to, a power parameter, a spectrum parameter, and a wavelength parameter, and the laser output by the laser device needs to be adjusted to a target value of the corresponding parameter, and then the copying test is performed.

In an alternative exemplary embodiment, a laser-induced copying tester is provided, and fig. 8 is a front view and a top view of a laser-induced copying tester according to an embodiment of the present application, as shown in fig. 8, the laser-induced copying tester includes: an output optical fiber cable head [1] (corresponding to the laser access device 106), an output optical fiber cable head holder assembly [2] (corresponding to the holder assembly 108-4), a device housing [3], a power meter [4] (corresponding to the laser detection module 102-4), a power meter holder [5], a light target holder [6], a light target [7] (corresponding to the light target element 102-22), an absorption cavity [8] (corresponding to the laser absorption device 104), an absorption cavity holder [9], a spectral signal transmission line [10] (corresponding to the spectral signal detection device 108), a spectral signal transmission line holder [11], an infrared camera [12] (corresponding to the infrared camera 102-26), an infrared camera holder [13], and a guide rail assembly [14] (corresponding to the moving guide rail 108-2). The power meter is fixed on the power meter fixing seat, the fixing seat is fixed in the device shell, the light target is fixed on the power meter fixing seat through the light target fixing seat, and the light target fixing seat is provided with a moving part, so that the light target can conveniently rotate and move. Wherein the central hole of the power meter and the central hole of the absorption cavity are on the same horizontal line. The infrared camera is fixed on the front door of the device shell through the infrared camera fixing seat, when the output optical cable head irradiates light on the light target, the infrared camera transmits the light spot position to the processor, so that the processor can adjust the output optical cable head to the position aligning with the target center of the light target, and after the position is determined, the light target is removed, and the light emitting test power is started. Meanwhile, the spectrometer signal transmission line is arranged at a position which can form an angle of 45 degrees with the light beam, and when light is reflected to the spectrometer signal transmission line, the signal line feeds information back to the processor, so that information such as wavelength, spectrum and the like can be displayed digitally. The output optical cable fixing seat is fixed on the guide rail assembly, the guide rail on the guide rail assembly can automatically move back and forth through the processing chip, and the output optical cable fixing seat can move left and right on the guide rail. After the power test is completed and reaches the value meeting the requirement, the optical cable output head can be automatically shifted to an absorption cavity opening arranged in the device shell through the guide rail assembly, and the light emission starts to perform a copying test according to the requirement, wherein the copying test comprises the following optional steps:

step one, an optical cable output head is inserted into an optical cable fixing seat, and an optical target is adjusted to be in a horizontal state, namely, the optical target bulls-eye and a central hole of a power meter are positioned on the same central line.

And secondly, emitting light by a laser, sorting data collected by an infrared camera, and adjusting coordinates of the optical cable output head if the optical point of the optical cable output head is not at the target center, so that the optical point is at the target center.

And thirdly, adjusting the power of the laser to reach a value meeting the requirement, and adjusting other parameters of the laser through data collected by a spectrometer transmission signal line to enable the state to be normal.

And step four, after reaching the power meeting the requirements, moving the optical cable output head fixing seat to the central hole of the absorption cavity.

And fifthly, starting light emission of the laser to perform a copying test procedure, closing the light emission and pulling out an optical cable output head after the copying test meets a certain time, and completing the power test and the copying test procedure of one machine.

The laser copying tester provided by the application can reduce the times of opening and closing the cabin door and plugging and unplugging the output optical cable head in the use process, reduce the pollution of the optical lens and the obvious problem of optical cable scratch caused by repeated plugging and unplugging the output optical cable head, and effectively improve the copying quality while ensuring the copying efficiency.

The foregoing is merely a preferred embodiment of the present application and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present application and are intended to be comprehended within the scope of the present application.

Claims (10)

1. A laser printer tester, comprising: the laser detection device, the laser absorption device, the laser access device and the mobile device, wherein,

the laser access device is arranged on the mobile device and comprises a light inlet and a light outlet, the light inlet of the laser access device is connected with laser equipment to be copied, the laser access device is allowed to move between a first position corresponding to a detection port of the laser detection device and a second position corresponding to a suction port of the laser absorption device under the driving of the mobile device, the light outlet of the laser access device faces the detection port of the laser detection device when the laser access device is positioned at the first position, and the light outlet of the laser access device faces the suction port of the laser absorption device when the laser access device is positioned at the second position;

the laser detection device is used for adjusting the laser output by the laser equipment to meet the copying condition;

the laser absorbing device is used for absorbing laser incident from the absorbing port in the process of copying the laser equipment.

2. The laser printer tester according to claim 1, wherein the laser detection device comprises: the position calibration module is deployed on the detection port on the laser detection module;

the position calibration module is used for calibrating the laser output by the light outlet of the laser access device into the detection port;

the laser detection module is used for adjusting the laser output by the laser equipment to meet the copying condition according to the laser received by the detection port.

3. The laser printer tester according to claim 2, wherein said position calibration module comprises: the laser detection module comprises a laser detection port, a light target element and a processor, wherein the light target element is arranged on the detection port on the laser detection module, and the processor is connected with the light target element;

the light target element is used for collecting the irradiation position of the laser output by the light outlet of the laser access device;

the processor is used for acquiring the irradiation position; and controlling the moving device to move according to the irradiation position until the irradiation position is positioned at the position where the detection port is positioned.

4. A laser printer tester according to claim 3, wherein said optical target element is provided with a moving part, wherein said processor is further connected to said moving part;

the processor is further used for controlling the moving component to withdraw the light target element from the detection port under the condition that the irradiation position is located at the position of the detection port.

5. A laser printer tester according to claim 3, wherein said position calibration module further comprises: an infrared camera, wherein a shooting view of the infrared camera covers a position where the light target element is located;

the infrared camera is used for shooting pictures of the light target element and transmitting the shot pictures to the processor;

the processor is used for acquiring the irradiation position from the picture transmitted by the infrared camera.

6. The laser printer tester as claimed in claim 1, further comprising: the processing chip is respectively connected with the laser detection device, the laser access device and the mobile device;

the processing chip is used for controlling the mobile device to move the laser access device to the first position; adjusting the laser output by the laser equipment to meet the copying condition according to the laser parameters detected by the laser detection device; and controlling the moving device to move the laser access device to the second position.

7. The laser printer tester as claimed in claim 6, wherein said processing chip is configured to:

after the mobile device is controlled to move the laser access device to the first position, controlling a light outlet of the laser access device to be opened;

controlling a light outlet of the laser access device to be closed under the condition that laser output by the laser equipment meets the copying condition;

after the light outlet of the laser access device is confirmed to be closed, controlling the moving device to move the laser access device to the second position;

and controlling the opening of the light outlet of the laser access device.

8. The laser printer tester as claimed in claim 6, wherein said processing chip is configured to:

determining the first position matching device parameters of the laser device;

and controlling the moving device to move the laser access device to the first position.

9. The laser printer tester according to claim 1, wherein said moving means comprises: a motion rail including one or more axes of motion and a stationary assembly allowing movement along each of the axes of motion;

the fixing component is used for fixing the laser access device.

10. The laser printer tester of claim 1, further comprising: a spectral signal detection device, wherein a detection area of the spectral signal detection device covers the laser detection device;

the spectrum signal detection device is configured to detect a spectrum parameter and a wavelength parameter of laser in the detection area, where the spectrum parameter is used to instruct to adjust laser output by the laser device to a target spectrum parameter, and the wavelength parameter is used to instruct to adjust laser output by the laser device to a target wavelength parameter, and the copying condition includes: the laser detection device is used for detecting the laser power.

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