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CN201653546U - Navaid light intensity automation measuring device - Google Patents

Navaid light intensity automation measuring device Download PDF

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Publication number
CN201653546U
CN201653546U CN 201020059215 CN201020059215U CN201653546U CN 201653546 U CN201653546 U CN 201653546U CN 201020059215 CN201020059215 CN 201020059215 CN 201020059215 U CN201020059215 U CN 201020059215U CN 201653546 U CN201653546 U CN 201653546U
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light
axis
measuring
testing
rod
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CN 201020059215
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Chinese (zh)
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张弦
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张弦
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Abstract

The utility model provides a navaid light intensity automation measuring device, comprising an optical sensor, two control motors and a testing frame, wherein the testing frame comprises an X-axis screw rod and a Y-axis screw rod. The X-axis screw rod and the Y-axis screw rod are respectively driven by the control motors, and can control the optical sensor to move in the X-axis and Y-axis directions, thereby accurately measuring the illumination of each measuring point; the actual light intensity value of each measuring point is calculated, then the average light intensity value within the main light beam range is acquired, and the device can judge whether the light satisfies the actual requirement or not according to standards. The utility model has the advantages of high testing precision, small system error, convenient operation, high universality and convenience, strong reliability and applicability and simple installation and debugging, and can satisfy various navaid light testing requirements specified by CAAC (Civil Aviation Administration of China) Flight Area Technical Standard.

Description

助航灯具光强自动化测量装置 Automation aids Lighting intensity measurement means

【技术领域】 TECHNICAL FIELD

[0001] 本实用新型涉及一种光强测量装置,特别涉及助航灯具光强自动化测量装置。 [0001] The present invention relates to an optical intensity measurement device, and more particularly to automated aids Lighting intensity measurement apparatus. 【背景技术】 【Background technique】

[0002] 助航灯具的光学性能检测在我国民航是一个新课题,机场使用的灯具其光学性能是靠该产品为取得民航使用许可证而通过形式试验所取得的。 [0002] Optical detection performance aids Lighting in China's civil aviation is a new topic, airport lighting used in its optical performance is achieved by the product is made in the form of civil aviation license and trial. 投入使用后的机场灯具的光学性能是否满足适航要求,尤其是对检修后的灯具的光学性能进行评估是一个亟待解决的问题。 Whether the optical performance of the airport put into use lamps meet airworthiness requirements, especially for the optical performance of the lamps after the overhaul is to assess a serious problem. 目前中国民航局新修订的《民用机场助航灯光运行维护规程》已要求对使用中的灯具进行光学性能抽检,以保证整个灯光系统的适用性。 China's Civil Aviation Authority newly revised "civil airport airfield lighting operation and maintenance procedures" has asked for the use of the optical properties of the lamp sampling, in order to ensure the applicability of the entire lighting system.

[0003] 传统测量灯具光强的方法是在测光板上汇出标准网格图,然后调整待测灯具和测光板之间的检测距离,手工逐点测量记录照度值后人工统计计算结果,其缺点是极为花费时间,劳动强度大,需要进行光强换算,并且通用性差,每种灯具需针对不同灯具和测量距离制作不同标准网格图,测量过程复杂,精度不高,误差大,人为影响因素更大,对测试人员综合素质要求较高,要求测试人员必须掌握足够光学测量的相关知识和规范的操作程序。 [0003] Traditional methods of measuring the lamp intensity is exported FIG photometric standard grid plate and then adjusting the detection distance between the metering plate and the test fixture, the statistical calculation result of the artificial illuminance values ​​measured manually recorded point by point , the drawback is extremely time consuming, labor intensive, in terms of light intensity required, and poor versatility, each lighting fixture and the need for different products of different measurement distances standard grid map, the measurement process is complex, high-precision, large errors, greater human impact factors, the higher the overall quality of testing personnel requirements, requiring a tester must have knowledge of relevant operational procedures and norms of sufficient optical measurements.

[0004] 现在市场出现了一种多探头式的光强测试设备,采用单列多个(比如30个)光传感器垂直布置,灯具安装在可水平转动的灯具座上,然后根据需要的检测距离调整灯具与光传感器之间检测距离,测试时控制灯具等速转动设定的角度,在灯具转动的同时连续对30个光强传感器的光强值进行采集,上位控制计算机控制灯具旋转和数据采集的同步,并处理相对应的数据,测试完成后上位计算机对采集到的角度、光强同步数据进行处理生成光强图,从而实现对灯具光强的测量。 [0004] Now the market there is a multi-probe type optical intensity test equipment, and a plurality of separate adjustment of the detection distance (such as 30) optical sensors arranged vertically, horizontally mounted on a rotatable fixture lamp base, as needed detecting the distance between the sensor and the light fixture, the test fixture controls the rotation angle of the constant velocity is set, while continuously rotating the fixture 30 on the light intensity values ​​of the light intensity sensor acquisition, host control computer controls data acquisition and rotating fixtures synchronization, and processing corresponding to the data, the host computer angle of the collected light intensity data is processed to generate sync FIG intensity after the test, in order to achieve the lamp light intensity measurement pair. 该单列多个光传感器的测试设备系统结构和线路复杂、操作难度大、测试过程复杂,特别作为计量检测产品,其量具需要定期校准,否则如仪器的零点不准,仪器未调整好,外界环境(光线、温度、湿度、电磁场等)对测量仪器的影响等所产生的误差难以消除,多探头的传感器对实际工作环境要求高,不利于现场操作和相应的检定;同时多探头式的产品由于探头安装固定就位后,探头之间的间距就固定,灯具和测量探头之间距离就固定,检测距离无法灵活配置,对测试现场环境要求过高便利性较差;测量误差较大难以消除,探头与探头之间位移的改变,测试距离变化,均不能自适应调整,测试结果很难进行符合性判断。 The single line test equipment system structure and a plurality of light sensors is complex, difficult to operate, complex testing process, particularly as the measuring and testing of products, which require regular calibration gage, such as 0:00 or allowed the instrument, the instrument is not adjusted, the external environment error of other measuring instruments (light, temperature, humidity, electromagnetic field, etc.) generated difficult to eliminate, multi-probe sensor high practical work environment requirements, is not conducive to field operations and the corresponding test; while the multi-probe type of products due to after the probe is fixed in position, the spacing between the probe is fixed, the distance between the lamp and the measuring probe is fixed, the detection distance can not be flexibly configured, high convenience poor environmental requirements of the test site; large measurement error is difficult to eliminate, displacement between the probe and the probe is changed, the test distance is changed, can not adaptively adjusted, the test result is difficult to determine compliance. 设备造价昂贵,针对抽样检测来说,造价昂贵的设备势必由于长期闲置而造成浪费。 Expensive equipment for sampling and testing, the cost of expensive equipment idle bound due to the long and wasteful.

【实用新型内容】 [SUMMARY

[0005] 本实用新型要解决的技术问题,在于提供一种助航灯具光强自动化测量装置,能够解决现有技术中测试过程复杂,精度不够高,误差大的问题;能解决由于测光板的限制或多个传感器式的测试设备无法设定不同的检测距离,对测试现场要求高的问题;能提供可靠的装置方便现场测试人员使用;易于对测量器具进行校准和专业检定的要求。 [0005] The present invention to solve the technical problem, is to provide an automatic aids Lighting intensity measuring apparatus capable of solving the prior art testing process is complicated, the precision is not high enough, the problem of error is large; solve since the metering plate restriction or more sensors formula test equipment can not be set different detection distances, the test requires a high field problems; provides reliable means to facilitate field testers; easy calibration of measuring instruments required for verification and professional.

[0006] 本实用新型是通过采用以下技术方案解决上述技术问题的:一种助航灯具光强自动化测量装置,其中,包括:一光传感器;第一控制电机;第二控制电机;以及一测试框,该 [0006] The present invention is achieved by the following technical solution to the above technical problem: one automation aids Lighting intensity measuring apparatus, comprising: a light sensor; controlling a first motor; a second motor control; and a test box, the

3测试框包括水平设置于测试框上的X轴丝杆,以及竖直架设于测试框上的Y轴定位轨道板, 该Y轴定位轨道板由X轴丝杆驱动,做水平移动,该Y轴定位轨道板上设置有竖直的Y轴丝杆,该Y轴丝杆上设有所述光传感器,该光传感器由Y轴丝杆驱动,做上下移动,所述X轴丝杆和Y轴丝杆的一端分别连接所述第一控制电机和第二控制电机,所述第一控制电机和第二控制电机各带有一通讯接口。 3 comprises a test frame to the X axis lead screw disposed horizontally on the test frame, and a vertical frame erected on the test track plate positioned in the Y-axis, the Y-axis rail plate positioning screw driven by an X-axis, moved horizontally, the Y orbital axis positioning plate is provided with a vertical screw Y-axis, the light sensor is provided on the Y-axis of the screw, the Y-axis by the optical sensor drive screw, up and down movement of the X-axis and Y screw one end of screw shaft are connected to control the first motor and the second motor control, the first control motor and second control motors each with a communication interface.

[0007] 进一步地,所述测试框还包括水平设置于测试框的上下两边的上滑轨和下滑轨, 该上、下滑轨上架设所述Y轴定位轨道板,该Y轴定位轨道板上还设置有与所述Y轴丝杆平行的Y轴滑轨,满足测试机构刚度和稳定性的要求和精密度的考虑。 [0007] Furthermore, said test block further comprises upper rail and a lower rail provided horizontally on the top and bottom of the test frame, the upper, erecting the Y-axis rail plate positioned on the rail, the track Y-axis positioning plate is also provided with the lead screw is parallel to the Y-axis Y-axis rail, to meet the requirements of the test facility and precision rigidity and stability considerations.

[0008] 进一步地,所述测试框的左右两边各设有一个接近开关,所述Y轴定位轨道板的上下两端各设有一个接近开关。 [0008] Further, the left and right sides of each of the test frame is provided with a proximity switch, a Y-axis upper and lower ends of each rail plate positioned a proximity switch is provided.

[0009] 进一步地,所述控制电机为步进电机或伺服电机。 [0009] Further, the control motor is a stepper motor or servo motor.

[0010] 进一步地,所述光传感器为一照度计的测量探头,该照度计还包括输出数值表和为照度计供电的稳压电源,该测量探头和数值表采用屏蔽线拆离出来而将所述测量探头可移动地设于所述Y轴丝杆上。 [0010] Further, the light sensor is a measuring probe illuminometer, which further includes an output illuminometer table of values ​​for the power supply and the power illuminometer, the measuring probe and the values ​​used in the table and out of the shielded wire detached from the the measuring probe movably provided on the Y-axis screw.

[0011 ] 进一步地,所述通讯接口为可与计算机进行并口或串口数据交换的通讯接口。 [0011] Further, the communication interface can be serial or parallel communication interface to exchange data with a computer.

[0012] 进一步地,所述测试框还包括水平设置于测试框的上下两边的上滚轮机构和下滚轮机构,该上、下滚轮机构上架设所述Y轴定位轨道板,该Y轴定位轨道板上还设置有一配合所述光传感器上下移动的滚轮机构。 [0012] Further, the test frame means further comprises an upper roller and a lower roller mechanism disposed at the level of the top and bottom of the test frame, the upper, erecting the Y-axis rail plate positioned on the lower roller means, the Y-axis positioning rails board is also provided with a roller mechanism vertically moving the optical sensor.

[0013] 进一步地,所述测量装置上的所有电线采用抗干扰的屏蔽线,满足测量信号传输的可靠稳定。 [0013] Further, the measuring devices on all the shielded electric wire line interference meet reliable and stable measurement signal transmission.

[0014] 进一步地,所述测量装置通过螺丝固定在墙面或一竖直面上,或者所述测量装置架设于一可移动的支架上。 [0014] Further, the measuring device is fixed on a wall or a vertical plane by a screw, or the measurement means erected on a movable stand.

[0015] 进一步地,所述光传感器通过一滑块架设于所述Y轴定位轨道板上,并穿设于所述Y轴丝杆和Y轴滑轨。 [0015] Further, the light sensor bridged by a slide rail of the Y-axis positioning plate and disposed through the Y-axis and the Y-axis rail screw.

[0016] 本实用新型所实现的测量装置具有如下优点:通过控制电机控制光传感器的移动,在测量过程中,只需在配合使用的上位计算机中输入测试灯具的测量距离和种类,就能自动计算出所需的测量交点,测量装置进行自动定位和检测,自动完成各个测试交点的光强测量,定位准确,走位精度高,从而使光强测试精度高,误差小,操作方便,是一种结构简单、自动化程度高、经济实用的光强测量装置,可以满足国内所有助航灯具的检测要求,非常适合机场进行灯具定期抽检和维修后的光学校准。 [0016] The present novel measuring apparatus has the following advantages achieved: by controlling the movement of the motor control photosensor, during the measurement, simply enter the measured distance and the type of lamp tested in conjunction with the host computer can be automatically calculate the required measurements intersection, means for automatic positioning and measurement detection, automatically measuring the intensity of each test intersections, positioning accuracy, and take the high bit precision, so that high light intensity test accuracy error is small, easy to operate, is a kind of simple structure, high degree of automation, cost-effective light intensity measuring device to meet all testing requirements of domestic aids to navigation lamps, ideal for lighting airports periodic sampling and optical calibration after repairs.

【附图说明】 BRIEF DESCRIPTION

[0017] 下面参照附图结合具体实施例对本实用新型作进一步的说明。 [0017] The following specific embodiments with reference to the accompanying drawings further illustrate the present invention for.

[0018] 图1是本实用新型所述的助航灯具光强自动化测量装置的外形示意图。 [0018] FIG. 1 is a aids lamp according to the present invention, a schematic view of the intensity profile automatic measuring device.

【具体实施方式】 【detailed description】

[0019] 根据图1所示,本实用新型所涉及的灯具光强自动化测量装置10,包括:一光传感器1,第一控制电机2,第二控制电机3,以及一测试框4,该测试框4包括水平设置于测试框上的上滑轨41、下滑轨42、X轴丝杆43,该X轴丝杆43位于上滑轨41、下滑轨42之间,该上滑轨41、下滑轨42上还竖直架设有一Y轴定位轨道板44,该Y轴定位轨道板44由X轴丝杆43驱动,可做水平移动,该Y轴定位轨道板44上设置有竖直且相互平行的Y轴丝杆45 和Y轴滑轨46,该Y轴丝杆45和Y轴滑轨46上设有所述光传感器1,该光传感器1由Y轴丝杆45驱动,可做上下移动,所述X轴丝杆43和Y轴丝杆45的一端分别连接所述第一控制电机2和第二控制电机3,该X轴丝杆43和Y轴丝杆45分别由所述第一控制电机2和第二控制电机3驱动,所述控制电机3或4各带有一通讯接口5。 [0019] According to FIG. 1, the present invention relates to a lamp light intensity automatic measuring apparatus 10, comprising: an optical sensor 1, the first control motor 2, the second control motor 3, and a test frame 4, the test 4 comprises a horizontal frame disposed on a test frame of the upper rail 41, the rail 42, the X axis lead screw 43, the screw 43 is located on the X-axis rails 41, 42 between the lower rail, the upper rail 41, down the upper rail 42 further has a vertically erected Y axis positioning rail plate 44, lead screw 44 is driven by the X-axis rails 43 of the Y-axis positioning plate, it does move horizontally, vertically disposed parallel to each other on the Y-axis 44 track plate positioned Y-axis lead screw 45 and the Y-axis rail 46, the Y-axis of the screw is provided with an optical sensor 45 and the Y-axis rail 46 for driving the optical sensor 1 by a Y axis lead screw 45, moves up and down do one end of said X-axis and Y-axis lead screw 43 screw 45 are respectively connected to the first and the second control motor 2 controls the motor 3, the X-axis and Y-axis lead screw 43 by the screw 45 are first the second control controls the motor 2 and the driving motor 3, the motor control 3 or 4 each having a communication interface 5.

[0020] 更优地,测试框4的左右两边各设有一个接近开关47,这两个接近开关控制Y轴定位轨道板的行程,当Y轴定位轨道板移动至快到接近开关处时,停止移动,当接近开关的电子功能失效时,这两个接近开关还可做为机械式的防撞装置;Y轴定位轨道板的上下两端也各设有一个接近开关47,这两个接近开关47控制光传感器在Y轴丝杆上的行程,也可兼做机械式的防撞装置。 When [0020] More preferably, the left and right sides test frame 4 is provided with a respective proximity switch 47, the two proximity switches control the stroke of the Y-axis positioning rail plate, when the Y-axis positioning plate is moved to the track approaching the proximity switch, stops moving, when the proximity switch is an electronic function fails, the two proximity switches may also be used as a mechanical anti-collision device; Y axis positioning lower ends of the track plate is also provided with a respective proximity switch 47, both close switch 47 controls the optical sensor in the Y-axis travel of the screw, also double as a mechanical anti-collision device.

[0021] 所述控制电机3或4可以为步进电机或伺服电机,步进电机或伺服电机带有可与计算机进行并口或串口数据交换的通讯接口,可与外部的上位计算机进行数据交换,通过对控制电机的控制实现对X轴丝杆43和Y轴丝杆45的控制,从而控制光传感器1在X轴和Y轴方向的移动。 [0021] The control of the motor 3 or 4 may be carried out with a parallel or serial communication interface for data exchange with the computer is a stepper motor or servo motor, stepper motor or servo motor, can exchange data with an external host computer, to achieve control of the X-axis and Y-axis lead screw 43 screw 45 to control the motor, thereby controlling movement of the optical sensor 1 in the X-axis and Y-axis directions through.

[0022] 所述光传感器1可以为一照度计的测量探头,该照度计还包括一输出数值表和为照度计供电的稳压电源,该测量探头和数值表采用屏蔽线拆离出来而将所述测量探头可移动地设于所述Y轴丝杆45上,探头和照度计采用屏蔽线拆离出来使得探头和照度计安装和拆卸非常方便,有利于进行测量鉴定。 [0022] The optical sensor 1 may be a luminometer measuring probe, the illuminometer further includes an output table of values ​​for the power supply and the power illuminometer, the measuring probe and the values ​​used in the table and out of the shielded wire detached from the the measuring probe movably provided on the Y axis lead screw 45, probe and illuminometer screened cable detached and the probe such that it illuminometer very convenient installation and removal, measured facilitate identification.

[0023] 所述测试框上的上滑轨和下滑轨以及Y轴滑轨的设置是为了使Y轴定位轨道板和光传感器的移动更稳定、可靠以及顺畅,该上、下滑轨还可以替换为上滚轮机构和下滚轮机构,该上、下滚轮机构上架设所述Y轴定位轨道板,相应地,该Y轴定位轨道板上的Y轴滑轨可以替换为一滚轮机构,该滚轮机构配合所述光传感器使该光传感器上下移动。 [0023] The upper rail and the lower rail and the Y-axis rail provided on the test frame is moved to the Y-axis positioning light sensor track plate and more stable, reliable and smooth, the upper and lower rails can be replaced the roller mechanism and the roller mechanism, which on the erected Y-axis rail plate positioned on the lower roller means, respectively, the Y-axis Y-axis rail track positioning plate can be replaced with a roller mechanism, the roller mechanism with the light sensor so that the light sensor is moved up and down.

[0024] 所述助航灯具光强自动化测量装置上的所有电线均采用抗干扰的屏蔽线。 [0024] The lamp light intensity aids all wires on automated measuring devices are used the interference shielded wire.

[0025] 所述测量装置可通过螺丝固定在墙面或一竖直面上,该测量装置还可通过支架架设于支架之上。 [0025] The measuring device may be fixed to the wall by means of screws or a vertical plane, the measuring device may also be bridged by the stent on the stent.

[0026] 所述光传感器通过一滑块48架设于所述Y轴丝杆45和Y轴滑轨46上。 [0026] The optical sensor 48 by a slider erected on the Y axis lead screw 45 and the Y-axis rail 46.

[0027] 本测量装置工作效率高,能大大减轻工作强度和工作量,一人即可单独完成测试工作,并能对目前所有机场进近灯、跑道和滑行道等立式或嵌入式灯具进行测量,配合上位计算机的使用,轻点几个鼠标就可等待检测结果的输出,本测量装置安装简单,现场调试方便,只需简单接线,配合上位计算机的两个简单的软件操作步骤:选择灯具种类和颜色、输入距离即可。 [0027] The present measuring apparatus of high efficiency, and can greatly reduce the intensity of work, a single person to complete the testing, and to all current airport approach lights, runway and taxiway recessed light fixture or the like to measure vertical , with the use of the host computer, a mouse can wait for a few tap result of the detection, the measurement device is simple to install, easy commissioning, simply wiring, two simple software procedure with the host computer: select the type of lamp and color, you can enter the distance. 测量装置根据国际民航组织ICAO的要求自动计算主光束所在的范围,自动测量该范围内各测量点的数据并记录分析打印,可直观准确地显示出测量范围内的光强数据情况,对数据处理能消除光污染的误差干扰,并且所有测量设备可单独分解进行标准值的检测对比。 ICAO requirements of ICAO measuring apparatus automatically calculates the range of the main beam is located according to the automatic measurement data at each measurement point within the range and analyzes the print record, display can be intuitively and accurately the intensity of light within the measurement range where the data, the data processing disturbance light pollution can eliminate the error, and all the measuring devices can be detected separately exploded comparison standard value. 同时,因为本测量装置通过接近开关实现限位和防止机构行程偏移;同时测量时考虑每点实际距离测量的光强为实际光强,从计算上减小误差。 Meanwhile, since the present apparatus is achieved by measuring the proximity switch and the stopper mechanism for preventing offset path; taking into account the actual intensity at each point of the actual distance measurement light intensity, reducing the error calculated from the measurement.

[0028] 此外本测量装置通过选购色度和亮度设备,还可以完成标记牌的牌面色度和亮度检测。 [0028] Furthermore, the present apparatus by measuring luminance and chrominance optional equipment, can also complete complexion of the card signs and brightness detection.

[0029] 本实用新型所实现的助航灯具光强自动化测量装置,采用单一的光传感器进行测量,自动根据国际民航组织ICAO要求的检测点位移动探头,定位准确,走位精度高,可根据不同灯具种类及其它参数灵活修改配置距离,测量过程和评估完全是无人值守下自动进行,自动生成测试单和结论,无需任何换算,是一种自动化程度高、经济实用的测量装置。 [0029] The present novel lamp aids achieved automatic light intensity measuring device, using a single optical sensor to measure, according to ICAO ICAO requirements automatically detecting point movement of the probe, positioning accuracy, and take the high bit precision, according to different types of lamps and other configuration parameters from the flexible modification, measurement and evaluation is completely automated unattended, automatic generation of test orders and conclusions, without any conversion, it is a high degree of automation, economical and practical means of measuring. 该测量装置配合简单的软件设置(或升级),可以满足国内所有助航灯具的检测要求,非常适合机场进行灯具定期抽检和维修后的光学校准。 The measuring device with a simple software settings (or upgrade), to meet all testing requirements of domestic aids to navigation lamps, ideal for lighting airports periodic sampling and optical calibration after repairs. 对测光室无特殊要求,本测量装置可移动, 配合活动的暗室,灵活搭建,满足助航灯光站的用房用地需求。 No special requirements on the metering chamber, the measuring device is movable, with activities darkroom, flexible construction, to meet the demand for land airfield lighting space station.

[0030] 本实用新型所实现的测量装置的最大特点是,只需在配合使用的上位控制计算机中输入测试灯具的测量距离和种类,就能自动计算出所需的测量交点,测量装置就能自动检测和定位,极为方便,坐标走位范围宽,走位精确,测量精度高,误差小,可测量《民用机场飞行区技术标准》中列出的所有助航灯具,并满足该标准的要求。 [0030] The present novel measuring apparatus achieved the greatest feature is simply an input in the test fixture with the host control computer used in the measurement of the distance and type, are automatically calculated by the intersection of the desired measurement, the measuring device can be automatic detection and location, is very convenient, walking wide range coordinates, take place accuracy, high accuracy, small error, all measurable aids lighting "technical standards civil airport flight zone" listed and meet the requirements of the standard .

Claims (10)

  1. 一种助航灯具光强自动化测量装置,其特征在于,包括:一光传感器;第一控制电机;第二控制电机;以及一测试框,该测试框包括水平设置于测试框上的X轴丝杆,以及竖直架设于测试框上的Y轴定位轨道板,该Y轴定位轨道板由X轴丝杆驱动,做水平移动,该Y轴定位轨道板上设置有竖直的Y轴丝杆,该Y轴丝杆上设有所述光传感器,该光传感器由Y轴丝杆驱动,做上下移动,所述X轴丝杆和Y轴丝杆的一端分别连接所述第一控制电机和第二控制电机,所述第一控制电机和第二控制电机各带有一通讯接口。 One kind of aids Lighting intensity automatic measuring device comprising: a light sensor; controlling a first motor; a second motor control; and a test frame, which comprises a horizontally disposed frame test on the X-axis wire test frame bar, and a vertical frame erected on the test track plate positioned in the Y-axis, the Y-axis rail plate positioning screw driven by an X-axis, moved horizontally, the Y-axis positioning track plate is provided with a vertical Y-axis of the screw , the light sensor is provided on the Y-axis of the screw, which is driven by the Y-axis optical sensor lead screw, move up and down, one end of the X-axis and Y-axis screw spindle respectively connected to the first motor and the control a second motor control, the first control motor and second control motors each with a communication interface.
  2. 2.根据权利要求1所述的助航灯具光强自动化测量装置,其特征在于:所述测试框还包括水平设置于测试框的上下两边的上滑轨和下滑轨,该上、下滑轨上架设所述Y轴定位轨道板,该Y轴定位轨道板上还设置有与所述Y轴丝杆平行的Y轴滑轨。 The lamp of claim 1 aids automatic light intensity measuring device as claimed in claim wherein: said test frame further comprises upper rail and a lower rail provided horizontally on the top and bottom of the test frame, the upper and lower rails erection of the Y-axis positioning rail plate, the Y-axis positioning plate is also provided with rails of the lead screw is parallel to the Y-axis Y-axis rail.
  3. 3.根据权利要求1或2所述的助航灯具光强自动化测量装置,其特征在于:所述测试框的左右两边各设有一个接近开关,所述Y轴定位轨道板的上下两端各设有一个接近开关。 The aids Lighting or claim 12 intensity automatic measuring device as claimed in claim, characterized in that: said left and right sides of each of the test frame is provided with a proximity switch upper and lower ends, said Y axis positioning each rail plate There is a proximity switch.
  4. 4.根据权利要求1或2所述的助航灯具光强自动化测量装置,其特征在于:所述控制电机为步进电机或伺服电机。 The aids Lighting or claim 12 intensity automatic measuring device as claimed in claim, wherein: said control motor is a stepper motor or servo motor.
  5. 5.根据权利要求1或2所述的助航灯具光强自动化测量装置,其特征在于:所述光传感器为一照度计的测量探头,该照度计还包括输出数值表和为照度计供电的稳压电源,该测量探头和数值表采用屏蔽线拆离出来而将所述测量探头可移动地设于所述Y轴丝杆上。 The aids Lighting or claim 12 intensity automatic measuring device as claimed in claim, wherein: the light sensor is a measuring probe illuminometer, which further includes an output illuminometer table of values ​​for the power supply and the illuminometer power supply, the measuring probe and the values ​​used in the table and the shielding line removed out from the measurement probe movably provided on the Y-axis screw.
  6. 6.根据权利要求1所述的助航灯具光强自动化测量装置,其特征在于:所述通讯接口为可与计算机进行并口或串口数据交换的通讯接口。 The lamp of claim 1 aids automatic light intensity measuring device as claimed in claim, wherein: said communication interface is a communication interface may be parallel or serial data exchange with a computer.
  7. 7.根据权利要求1所述的助航灯具光强自动化测量装置,其特征在于:所述测试框还包括水平设置于测试框的上下两边的上滚轮机构和下滚轮机构,该上、下滚轮机构上架设所述Y轴定位轨道板,该Y轴定位轨道板上还设置有一配合所述光传感器上下移动的滚轮机构。 The lamp of claim 1 aids automatic light intensity measuring device as claimed in claim wherein: said test block further comprises an upper horizontal roller mechanism disposed on the top and bottom of the test frame and the lower roller means, the upper and lower roller erection of the Y-axis positioning means on the rail plate, the Y-axis positioning plate provided with a track roller of a mechanism for moving up and down with the light sensor.
  8. 8.根据权利要求1所述的助航灯具光强自动化测量装置,其特征在于:所述测量装置上的所有电线采用抗干扰的屏蔽线。 8. The fixture of claim 1 aids automatic light intensity measuring device, characterized in that: all wires on the device uses the measured interference of the shielded wire.
  9. 9.根据权利要求1所述的助航灯具光强自动化测量装置,其特征在于:所述测量装置通过螺丝固定在墙面或一竖直面上,或者所述测量装置架设于一可移动的支架上。 9. The lamp of claim 1 aids automatic light intensity measuring device as claimed in claim, wherein: said measuring means to set up a movable wall or screws in a vertical plane, or the measurement by means of bracket.
  10. 10.根据权利要求2所述的助航灯具光强自动化测量装置,其特征在于:所述光传感器通过一滑块架设于所述Y轴定位轨道板上,并穿设于所述Y轴丝杆和Y轴滑轨。 10. The lamp of claim 2 aids automatic light intensity measuring device according to claim, wherein: the light sensor is positioned by the Y-axis rail to the erected a slide plate, and disposed through the axis of the yarn Y and a Y-axis rail bar.
CN 201020059215 2010-01-06 2010-01-06 Navaid light intensity automation measuring device CN201653546U (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102141493A (en) * 2010-12-14 2011-08-03 中国飞机强度研究所 Test loading device of airplane joystick type control system
CN103323104A (en) * 2012-03-23 2013-09-25 台湾超微光学股份有限公司 Optical measuring system, bearing structure and optical measuring method
CN103471710A (en) * 2013-09-18 2013-12-25 重庆交通大学 Roadway lighting quality inspection device
CN103822705A (en) * 2013-12-26 2014-05-28 蒙宏铅 Screen brightness test positioning device

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102141493A (en) * 2010-12-14 2011-08-03 中国飞机强度研究所 Test loading device of airplane joystick type control system
CN102141493B (en) 2010-12-14 2012-07-25 中国飞机强度研究所 Test loading device of airplane joystick type control system
CN103323104A (en) * 2012-03-23 2013-09-25 台湾超微光学股份有限公司 Optical measuring system, bearing structure and optical measuring method
CN103323104B (en) * 2012-03-23 2016-04-27 台湾超微光学股份有限公司 The optical measurement system and the carrying structure of the optical measuring method
CN103471710A (en) * 2013-09-18 2013-12-25 重庆交通大学 Roadway lighting quality inspection device
CN103471710B (en) * 2013-09-18 2015-08-05 重庆交通大学 Road lighting quality detection means
CN103822705A (en) * 2013-12-26 2014-05-28 蒙宏铅 Screen brightness test positioning device
CN103822705B (en) * 2013-12-26 2016-08-17 蒙宏铅 One kind of screen brightness test fixture means

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