Infrared crosshair laser

It is the hardest work for users to make cross line alignment under night vision illumination work fields, however, the application of 808nm infrared crosshair laser module has just changed situation, brining users quite accurate two perpendicular cross line source clearly for those of military targeting, laser medical treatment device, surveillance and intelligent system efficiently. This infrared crosshair laser module should be operated as an accessory part, with the special equipment of night vision system, such as CCD camera, black and white camera or other IR laser system, intense infrared laser beam has finally converted into precise cross line instruction as expected. This infrared laser module gets free adjustment of laser beam focus according to simple screw of laser beam aperture, easily achieving high precision cross line alignment precisely and accurately. Technical data: Item: Berlinlasers 808nm infrared crosshair laser module Output power: 5mW-400mW Laser class: IIIa, IIIb Laser lens: glass cylindrical lens Power source: 3V, 4.2V, 8.4V DC input power supply Warranty period: 180 days Serving lifetime: 8000 hours http://www.berlinlasers.com/808nm-infrared-crosshair-laser-module

Whenever users are in need of accurate cross line positioning in night vision working fields, 980nm infrared cross laser alignment is a quite nice choice. It generates invisible infrared laser beam to human eyes, when it is using together with infrared night vision tools, such as night vision camera, black and white camera, it can be workable to provide high intensity infrared laser beam, providing high accuracy 90 degrees vertical and horizontal infrared laser lines on desired working surfaces. The operation of invisible 980nm infrared cross laser alignment is very different from visible red, blue, blue violet or green lasers. It generates invisible infrared laser beam to human eyes, only after its equipment of IR laser illumination tool, infrared cross line laser source can make high accuracy two perpendicular line positioning on required working surfaces. This infrared crosshair laser module is equipped with qualified glass cylindrical lens, within laser lens degree of 10 degree, 15 degree and 110 degree, cross line laser source can be available with different size. According to its wide selection of output power from 5mW to 500mW, 980nm infrared laser module always providing high accuracy cross line positioning result as expected. Besides correct selection of output power, users should also pay high attention to infrared laser safety measures. According to very easy installation and proper adjustment of laser beam focus, this advanced cross line alignment tool just brings users the most satisfied result as expected. Technical data: Item: Berlinlasers Infrared Cross Laser Alignment Output power: 5mW-500mW Wavelength: 980nm Laser class: IIIa, IIIb Laser lens: glass cylindrical lens Laser lens degree: 10, 15, 110 degrees Housing material: Anodized aluminum Severing lifetime: 8000 hours Warranty period: 180 days Application: laser medical treatment, military targeting, night hunting, telescope http://www.berlinlasers.com/980nm-infrared-cross-projecting-laser-alignment

Comparing with any other visible laser devices, 808nm infrared dot laser alignment is a totally invisible IR laser beam emitting laser device, which cannot be used separately, but always using together with night vision illumination IR laser devices. This near infrared laser module adopts highly durable black anodized aluminum alloy housing material, which is always making perfect protection of this infrared laser alignment from interference, statistic, also ensuring its superior thermal conductivity in continuous infrared laser dot alignment works. This infrared laser alignment gets accurate IR laser dot positioning in military targeting, surveillance, night hunting and telescope observation etc. 808nm infrared dot laser alignment is an adjustable focus laser device, according to its simple screw or twist of laser module head part, infrared laser beam is temporarily focused, concentrated into the most compact diameter IR laser dot on various working surfaces efficiently. The special configured glass cylindrical lens is just the greatest choice, which enables the highest laser beam transmittance of 808nm infrared laser module, no appearance of infrared laser beam dim in distance. When users are making correct installation and adjustment of infrared laser alignment, it just gets the most precise IR laser dot positioning clearly. Technical data: Item: Berlinlasers 808nm infrared dot laser alignment Output power: 5mW-400mW Power source: 3V, 4.2V DC input power supply Laser lens: glass cylindrical lens Warranty period: 180 days Serving lifetime: 8000 hours http://www.berlinlasers.com/808nm-infrared-dot-projecting-laser-alignment

When laser dot alignment is processed under night vision illumination work fields, users would prefer to use 808nm infrared dot laser alignment. Owing to its direct infrared laser beam emission, infrared laser dot targeting always keeps high concentration laser beam focusing, thus always bringing users quite satisfied dot alignment in all high tech work fields efficiently. Owing to invisible infrared laser beam emitting to human eyes, 808nm infrared laser module always gets different applications as those of visible lasers. It is not being as for simple presentation, but gets different applications in military targeting, night vision infrared dot illumination, laser medical treatment devices. This advanced infrared laser alignment gets wide output power range from 5mW to 400mW, thus always getting high intensity infrared laser dot positioning. At the same time, users should pay high attention to powerful infrared laser radiation, thus making sure of high security infrared laser dot positioning efficiently. Technical data: Item: Berlinlasers Infrared Dot Laser Alignment Wavelength: 808nm Output power: 5mW-400mW Laser Class: IIIa, IIIB, IV Power supply: 3V, 4.2V DC input power supply Warranty period: 180 days Serving lifetime: 8000 hours http://www.berlinlasers.com/808nm-infrared-dot-projecting-laser-alignment

Anytime Berlinlasers 808nm infrared line laser module is being used as an accessory part of night vision device, such as CCD camera, black and white camera or other night illumination device, it always generates super intense infrared laser beam, forming into a highly straight and fine infrared laser line on night vision working surfaces. This laser line generator is equipped with high photoelectric transverse mode made glass cylindrical lens, which is applicable for super long distance, while still keeping its clear and accurate enough laser line alignment as expected. The real operation of Berlinlasers 808nm infrared line laser module is employing external power source of DC input power supply, supporting highest output power of 400mW. The real infrared laser line alignment is workable as long as 100 meters to 1000 meters in distance. At the same time, any output power made infrared laser module exists potential danger to eyes, thus users should just remember to wear a pair of 808nm wavelength preventing laser safety goggles so as to get the most secured infrared laser line alignment safely. Technical data: Item: Berlinlasers 808nm infrared line laser module Output power: 5mW-400mW Laser lens degree: 10-110 degree glass cylindrical lens Power source: 3V, 4.2V DC input power supply Application: military targeting, laser medical treatment device, night hunting and telescope observation etc. http://www.berlinlasers.com/808nm-infrared-line-laser-module

Once laser dot alignment is processed under night vision illumination work fields, 808nm infrared dot laser alignment gets the most special applications for military targeting, laser medical treatment device, night hunting, IR illumination dot alignment and night hunting etc. This infrared laser module gets special configuration of night vision device, such as CCD camera, black and white camera or IR laser system, generating high precision infrared laser dot positioning for all high tech work fields efficiently. 808nm infrared dot laser alignment gets wide range output power, however, owing to dedicated DC input power supply, it gets superior good flexibility and thermal conductivity. Under the proper selection of operating voltage, infrared laser module gets high intensity IR laser beam emission. According to very simple screw of laser module head part, this 808nm infrared laser alignment gets the most concentrated IR laser beam focusing, generating the most precise IR laser dot targeting for all night vision illumination works efficiently. Technical data: Item: Berlinlasers infrared dot laser alignment Wavelength: 808nm Output power: 5mW-400mW Power source: 3V, 4.2V DC input power supply http://www.berlinlasers.com/808nm-infrared-dot-projecting-laser-alignment

Overview The non-contact diameter measuring system, is mainly used in the measurement of the outer diameter of various wire rods, bars, wires and pipes. The system can detect the change of the diameter (outer diameter) of the measured object in real time under the high temperature state. The working principle The diameter measuring system takes the laser scanning method as an example. It adopts the probe imported from Japan, which can achieve±2um accuracy at the range of 0.3~30mm. The acquisition frequency reaches 2000 times/second. The probe uses a self-excited infrared light source, which overcomes the measurement problem in dim environments. It adopts the measurement method of pulse parallel light scanning, and has a strong ability to resist the jitter of the measured object. (As shown in Figure 1) Since the shaking frequency of the measured object is much smaller than the scanning frequency, when the measured object A moves in the shakeable area, the measurement result will be able to ensure its accuracy because the time it blocks the beam does not change. Figure 1: Probe Scanning Radiation Area The detection principle is as follows Figure 2: Working Principle First, the mold oscillator generates self-excited high-frequency pulses, which are sent to the comparator and the stepping servo motor respectively. The stepping servo motor drives the octahedral prism to rotate at a high speed, and reflects the infrared laser emitted by the laser generator to the convex lens A. It becomes parallel light, and then collects on the photosensitive element C through the convex lens B in the infrared receiving probe. The photosensitive element C converts this signal into a corresponding electrical signal and sends it to the other end of the comparator to compare with the original signal. When there is no object to be measured in the measuring probe, the pulse signal at both ends of the comparator will be the same. Therefore, there is no difference output: when there is an object to be measured in the measuring probe, the photosensitive element C will output no pulse signal during the period of scanning through the object to be measured. Therefore, there will be a difference input for a period of time at both ends of the comparator, which corresponds to the diameter of the measured object. By calculating the oscillation period of the pulse and the length of the time slice without pulse, the diameter of the measured object can be known. The composition and functions of the system The system consists of the following main parts (as shown in Figure 1) 1. A measurement frame with four pairs of high-frequency laser scanning probes and non-contact infrared thermometers is installed 2. Four intelligent signal processors connected with four pairs of high frequency laser scanning probes 3. Cold air blowing system for cooling and cleaning the measuring frame 4. High-performance intelligent controller responsible for front-end data signal processing and network communication 5. Data processing and analysis system installed with industrial grade PC, monitor and printer

Although you are only operating a low power 5mW 808nm infrared laser pointer, however, it is still efficient enough to generate extremely intense and powerful infrared laser beam in distance. This infrared laser pen gets extremely high laser beam transmittance as high as 80%, thus users should just pay special attention to powerful IR laser light emission and avoid direct staring at powerful IR laser light. Owing to its invisible infrared laser beam and quite blur infrared light spot emitting in red color, this infrared laser pointer is always being used as an accessory part, but never allowed operation separately. This 808nm infrared laser pointer is a very simple carrying and operating laser pen. Only according to its very simple insert of 2 pieces of AAA batteries, it beings to work and project high intensity infrared laser light immediately. This infrared laser pen also get different application in military targeting, surveillance, laser medical treatment etc. Users should also remember to wear 808nm infrared laser safety goggles so as to assure safe infrared laser light emission in all night vision illumination work fields safely. Technical data: Item: Berlinlasers 808nm infrared laser pointer Output power: 5mW Laser Class: IIIa http://www.berlinlasers.com/5mw-infrared-laser-pointer-808nm

When dot positioning is processed under night vision observing work fields, Berlinlasers 808nm infrared laser pointer is just a super nice choice that is worth recommendation. It is a very simple alkaline battery power supported laser pen, however, it just gets even longer wavelength than formal visible laser devices, thus getting different applications in night illumination work fields, such as laser medical treatment, military targeting, surveillance, night hunting and telescope observation works. This Berlinlasers 808nm infrared laser pointer generates invisible infrared laser beam and very dim red light spot on targeting surfaces. Any explosion to powerful and intense infrared laser beam might cause serious hazards to human eyes, thus it is never allowed to make direct infrared laser beam radiation without any laser safety measures. Although you are only using a low powered 5mW infrared laser pointer, however, it is still important for users to wear 808nm wavelength preventing infrared laser safety goggles, thus getting the most secured infrared laser dot targeting safely. http://www.berlinlasers.com/5mw-808nm-infrared-laser-pointer

When 980nm infrared laser diode module emits invisible IR laser beam in distance, it is just being used as an accessory part of night vision device, such as a CCD camera, black and white camera or infrared camera, it can easily achieve prices enough IR laser dot alignment under all night vision illumination work fields marvelously. Infrared laser module is workable with DC input power supply, thus infrared laser dot targeting keeps work continuously, making sure of high precision dot alignment for military targeting, surveillance, laser medical treatment device etc. This 980nm infrared laser diode module is very easy to operate. Noncontact IR laser dot can easily reach any night observing surface, making sure of precise enough IR laser dot alignment as long as 100 to 1000 meters efficiently. This infrared laser alignment gets maximum output power up 500mW, producing super intense and powerful IR laser beam in constant dot aligning work. Users should pay high attention to powerful IR laser light, avoid direct eye explosion to powerful IR laser radiation and reflection, making sure of the most secured IR dot alignment form proper 980nm wavelength preventing laser safety goggles safely. Technical data: Item: Berlinlasers 980nm infrared laser diode module Output power: 5mW-500mW Laser lens: glass cylindrical lens Power source: 3V, 4.2V, 8.4V DC input power supply Warranty period: 180 days Serving lifetime: 8000 hours http://www.berlinlasers.com/980nm-infrared-laser-diode-module

CK-T1501 Features: 1. Fast temperature measurement: measurement time 3 million times. 9. Large-screen display: Large-screen LCD display, white backlight, can clearly display the measured value under any light. 10. Modification of settings: You can modify the setting parameters to adapt to the medical temperature measurement system in different countries (for people with different skin colors) 11. Infrared measurement: It only measures the infrared radiation signal emitted by the human body, and does not touch the human skin, which is harmless to the human body. Description: Fast temperature measurement, large screen, alarm, long life. Home temperature measuring tools. Specifications: Product size: 150 * 95 * 44mm (LxWxH) Color box size: 105 * 60 * 171mm Machine weight: 150g (including packaging) Bare metal weight: 110g Measurement range: body temperature mode 32 -42.9 Surface mode 0 -100 Accurate: 0.2 in the range of 35 -42 0.3 outside the range of 35 -42 The measurement deviation is 0.3 degrees. (Using imported infrared detection system) Package Included: 1 x forehead thermometer We are at

Overview LDT-L200 is a new generation of ladle lining thickness gauge launched by our company. The system equipment emits a pulsed laser beam to the lining surface of the ladle, and receives the returned laser light to measure its transmission time. Then the system equipment calculates the distance between the equipment and the target point according to the transmission speed of the laser. During measurement, the user pushes the equipment to the certain measuring point on the platform in front of the ladle, and the equipment can start to scan and measure the target area of the ladle after the equipment performs rapid self-positioning. The measuring principle The measurement speed of LDT-L200 can reach up to 2,000,000 points per second, and each scan can obtain distance data of more than 1.5 million points. The actual surface curve of the entire ladle lining can be obtained by combining the measurement data of different positions. During the measurement, the laser head of the equipment rotates at a certain step angle to rapidly change the angle of the pulsed laser beam. Within 1 minute, the three-dimensional surface contour of the ladle lining can be formed, and the thickness information of the furnace lining can be obtained through coordinate conversion calculation. The measurement accuracy up to ±2mm. In order to accurately calculate the thickness of the lining in the ladle, the measuring head of the laser thickness gauge is installed on the ladle repairing platform. By moving the swivel arm for hoisting, the laser scanning head is moved to the intersection position during measurement, and the relative position of the laser head to the ladle mouth will be calculated during installation. Through mathematical modeling, a complete 3D figure of the thickness of the entire ladle lining can be displayed after laser scanning The main components 1. Laser measuring head 2. Fixed laser thickness gauge host 3. Optical fiber communication 4. Cooling circulation system The technical indexes Laser reproducibility: ±2mm Laser accuracy: ±2mm Local fastest measurement time: 15s Positioning time: 30s Full image measurement time: 1min The highest measurable lining temperature: 1850℃ Measuring distance: 0.5-25m Actual points are measured per frame: 1500000 points Eye-safe laser: Class 1 laser product (doesn't hurt the eyes) The parameter of laser measuring head Measurement principle: According to the flight time and speed of the laser to calculate the distance Laser reproducibility: ±2mm Laser accuracy: ±2mm Scan rate: 2000000 points/second Measuring angle: vertical ±40°, horizontal 360° Maximum measurement temperature: 2200℃ Working temperature: -20℃-80℃ Cooling method: Integrated liquid cooling system, IP64 grade protection Laser wavelength: 1550nm (near infrared)

Overview： This product is a new type of mold copper plate surface cladding detection equipment. The equipment adopts a high-precision and high-sensitivity laser ranging sensor, which scans the copper plate of the mould by scanning a laser line with a fixed width, and returns the measurement data in real time. After modeling and analyzing the data, the upper computer gives the wear data of the mold copper plate, as well as the data of surface cracks and surface roughness. The host computer software intuitively reflects the surface profile of the detected mold and cladding thickness deviation and other data to the user in the form of data sheet, data curves and mold 3D model diagrams, providing a true and reliable theory for on-site operators to maintain the mold. The mold surface cladding detection equipment is a high-precision instrument, which includes high-precision laser ranging sensors, two digital servomotors, encoders, horizontal sliding screws, vertical sliding screws, and calibration consoles, controllers and other components. The equipment has many advantages such as high accuracy, strong stability, convenient installation and strong observability. It is suitable for mold surface cladding detection, surface flatness analysis, surface flaw detection, taper measurement, etc. It is also suitable for round billets, square billets, slabs, special-shaped billets, etc., widely used and powerful. The composition of the system： 1. The mold surface cladding detection equipment is equipped with: data processing and display unit, horizontal motion mechanical power output unit, vertical mechanical power output unit, instrument motion control unit, laser measurement sensor, and instrument bracket. 2. Data processing and display unit: used for data acquisition and storage, system equipment control, parameter configuration, height display of the descent, start and stop control, etc. 3. Horizontal motion mechanical power output unit: the digital servo motor in the horizontal direction controls the sensor to move in the horizontal direction, so that the sensor can scan the horizontal inner cavity wall of the mold copper plate to detect data. 4. Vertical mechanical power output unit: the digital servo motor in the vertical direction controls the sensor to move in the vertical direction, so that the sensor can scan the vertical cavity wall of the mold copper plate to detect data. 5. Instrument motion control unit: It is used to control the motion scanning of the motor, and the running speed, running track, and control mode of the motor can be configured through parameter settings. 6. Laser measurement sensor: The laser displacement sensor adopts the principle of laser triangulation. The laser transmitter shoots the visible infrared laser to the surface of the measured object through the lens, and the laser reflected by the object passes through the receiver lens and is received by the internal line array image processing sensor. According to different distances, the corresponding positions of the light spots received on the line array sensor are also different. According to the angle of this reflection, the distance between the actual objects can be calculated by calculating the distance of the sensor spot. 7. Instrument bracket: The mold surface cladding detection equipment need to be placed directly above the mold when it is in use, and it is required to be fixed firmly without displacement vibration during the measurement process to ensure the measurement accuracy. The parameters： Detection instrument service life: ≥5 years; Detection instrument reliability: more than 98%; Detection range: 60~1000mm (customizable) Detection accuracy: 0.01mm Spot diameter: 1.0x1.5mm (spot scan), 1.0x20mm (line scan) Falling pace: 1~20mm/step Single measurement time: less than 2min Power supply: DC24V Operating temperature: -20~80℃ Equipment warm-up time: 3~5min Shock resistance: 50G (X, Y, Z axis) Vibration resistance: 10Hz~5Hz (amplitude 1.5mm, each 2 hours in X, Y, Z axis)

Overview: In the steelmaking production process, the ladle is the key equipment for holding molten steel, secondary refining, and continuous pouring. In a modern steelmaking plant, refractory materials are required for converters, refining, and ladles. In the steelmaking process, ladle is the main equipment for using and consuming refractory materials. Improving the service life of ladles and reducing refractory consumption is the key technology for steelmaking plants to save costs and reduce energy consumption for green production. In order to ensure the orderly operation of the ladle, save the consumption of refractory materials, prolong the service life of the ladle, and ensure the safe operation of the ladle, Wuhan CenterRise M&C Engineering CO. developed and launched the LDT-N200 integrated management system for the ladle. Introduction: LDT-N200 ladle integrated management system integrates LDT-L200 ladle lining thickness gauge, TBP-S300 ladle, tundish baking temperature and leakage monitoring system, RFD -C100 metallurgical electronic positioning system, and also integrates SQL Server database and NeuralWare (American computer software company) neural network software NeuralWorks to realize intelligent and optimized management of ladles. LDT-L200 ladle lining thickness gauge uses a laser area array scanning sensor to accurately measure the real-time thickness of the ladle lining, calculate the lining loss, and predict the service life of the ladle. TBP-S300 ladle, tundish baking temperature and leakage monitoring system uses infrared thermal imaging camera and embedded armor wire system to comprehensively monitor and prevent ladle leakage. RFD-C100 metallurgical electronic positioning system installs RFID electronic tags on all ladles to realize full-time and full-space ladle positioning and tracking. LDT-S200 ladle optimization control and analysis software, based on SQL Server database, B/S network structure, realizes online management of ladles, and adopts BP neural network system to realize intelligent optimization control of ladles. LDT-N200 ladle integrated management system can realize ladle age management based on ladle lining data and neural network algorithm, safety process control of ladle turnover and use, full-time tracking management of steelmaking production and full-space tracking management of ladle use and provide optimal control and management of steelmaking production and ladle maintenance. Comprehensive ladle measurement and monitoring, ladle positioning and management, and data management and optimization enable the LDT-N200 ladle integrated management system to fully realize ladle entire process management, optimize the service life of ladles, and comprehensively reduce the cost of refractory materials. The features: Using a lining thickness gauge to measure the thickness of the ladle lining Using infrared thermal imaging camera/embedded armor wire to realize ladle leakage detection Using RFID/number plate recognition to realize the location management of ladles Ladle age management system based on overall tracking Overall (full-time full-space) ladle management system based on database Provide overall production scheduling data Using neural network to predict ladle service life based on big data Ladle Optimal Scheduling System based on database and ladle service life Increase the service life of ladle by 12%-20% Reduce the use of refractory materials more than 15% Realize orderly management of ladle baking Realize full space and full time domain control Reduce the costs of ladle management and maintenance Improve the efficiency of ladle turnover operation