LONGER How to:How to use laser to engrave ceramics
LONGER How to:How to use laser to engrave ceramics

This guide uses the LONGER RAY5 10W to demonstrate how to laser engrave on white porcelain. By applying color paper to enhance energy absorption, adjusting LightBurn settings (1000mm/min, 100% power), and carefully cleaning after engraving, users can achieve sharp, detailed results. Fine-tuning material preparation and engraving speed ensures optimal engraving quality on ceramic surfaces.

By Products Tutorial | April 28, 2025
LONGER How to: Batch Engraving Business Cards with LONGER Nano Series: A Smarter Way to Personalize Your Brand
LONGER How to: Batch Engraving Business Cards with LONGER Nano Series: A Smarter Way to Personalize Your Brand

Batch engraving anodized aluminum business cards has never been easier or more precise. With the LONGER Nano Series laser engraving machine, creative professionals and business owners can produce sleek, customized cards that leave a lasting impression. This guide walks through the complete process—from setup and positioning to design import and laser parameter adjustment—ensuring efficient and professional-grade results every time.

By Products Tutorial | April 23, 2025
Safety First: Exploring the Advanced Safety Features of the LONGER Nano Series Engraving Machines
Safety First: Exploring the Advanced Safety Features of the LONGER Nano Series Engraving Machines

LONGER’s Nano Series laser engravers combine precision and safety with features like real-time temperature monitoring, tilt detection, and flame-retardant shielding. This article details how these safety systems work together to deliver a secure and reliable engraving experience for creators at all levels.

By Products Tutorial | April 23, 2025
Protective Lens Replacement for Longer Ray5 10W
Protective Lens Replacement for Longer Ray5 10W

When engraving with the Longer Ray5 10W, smoke buildup can cloud the protective lens, reducing laser power. This guide shows you how to replace the protective lens to restore performance. Regular replacement or cleaning ensures efficient cuts and extends the life of your laser. If the lens is damaged or remains blurry after cleaning, a new one can be purchased directly from the official LONGER website.

By Products Tutorial | April 19, 2025
LaserBurn 1.2.0 Official Release|LONGER Launches Smart Engraving Across All Models
LaserBurn 1.2.0 Official Release|LONGER Launches Smart Engraving Across All Models

LONGER officially releases LaserBurn 1.2.0—its smart engraving software now supporting Nano Duo, Nano Pro, Nano, and B1 series. Featuring AI-powered functions like auto-positioning, real-time preview, text-to-image design, and batch sync, this update transforms how creators work. The Ray5 series will join soon with future firmware support. With smarter control, advanced design tools, and flexible connectivity, LaserBurn 1.2.0 marks the next step in LONGER’s evolving ecosystem for laser engraving.

By Products Tutorial | April 19, 2025
How to Enable Framing Mode on Lightburn for Longer Laser Engravers
How to Enable Framing Mode on Lightburn for Longer Laser Engravers

LightBurn Framing Mode is essential for accurate laser engraving with Longer machines like Nano, B1, and Ray5. It lets users preview the engraving area before starting the job, minimizing material waste and errors. This guide walks you through enabling Framing Mode in LightBurn—just activate the laser fire button, set framing power to 2%, and you're ready to frame with precision. Perfect your setup and avoid costly mistakes with this simple yet crucial step in the engraving process.

By Products Tutorial | April 18, 2025
How to Get Colored Shades Engravings with Longer Ray5 & B1
How to Get Colored Shades Engravings with Longer Ray5 & B1

Longer laser engravers like Ray5 and B1 series can create brilliant multicolor engravings on metal, starting from just 10W of power. Using LightBurn's Material Test, users can easily identify the best settings to unlock vibrant shades. Even with lower-power lasers, up to 90 distinct colors are possible, making metal engraving both creative and accessible. Learn how to test, tweak, and master color engraving with your Longer machine.

By Products Tutorial | April 18, 2025
Fan Recovery & Replacement for Longer B1
Fan Recovery & Replacement for Longer B1

Proper cooling is critical for maintaining laser performance and preventing damage to your laser module. The Longer B1 cooling fan continuously removes heat generated during engraving and cutting operations. Over time, smoke and dust can accumulate inside the fan, reducing airflow and cooling efficiency. In some cases, prolonged use may cause the fan to stop working entirely, making cleaning or replacement necessary.

Table of Contents

  • What Is This Product?
  • Key Features and Benefits
  • Compatible Models and Applications
  • Why Users May Need This Product
  • How to Use the Product
  • Common Questions or Issues
  • Tips for Better Results
  • Frequently Asked Questions
  • Final Thoughts

What Is This Product?

Quick Answer

The Longer B1 fan recovery and replacement process restores cooling performance for the laser module used in Longer B1 series laser engravers. It involves cleaning accumulated dust and smoke debris from the fan or replacing a damaged fan with the correct specifications.

The cooling fan serves an important role inside the laser module:

  • Removes heat generated during engraving
  • Maintains stable laser operation
  • Helps prevent overheating
  • Protects laser module components

This maintenance procedure is intended for:

  • Longer B1 owners
  • Users performing frequent engraving jobs
  • Users working with materials that generate heavy smoke or dust
  • Makers who want to maintain long-term machine reliability

Key Features and Benefits

Feature 1: Restores Cooling Efficiency

What it does

Cleaning removes smoke residue and wood dust from the fan and laser module.

Why it matters

Dust buildup restricts airflow and reduces cooling performance.

User benefit

  • Better heat dissipation
  • More stable operation
  • Reduced overheating risk

According to Longer's maintenance information, smoke and wood particles produced during engraving naturally enter the fan system over time and can eventually affect cooling performance.


Feature 2: Prevents Laser Module Damage

What it does

Replacing a failed fan restores proper airflow.

Why it matters

A non-functioning cooling fan can allow heat to accumulate.

User benefit

  • Helps protect internal laser components
  • Supports consistent machine operation
  • Reduces downtime

Longer notes that a fan that stops functioning should be replaced as soon as possible to avoid laser module damage.


Feature 3: Supports Routine Maintenance

What it does

Allows users to restore normal operating conditions through periodic cleaning.

Why it matters

Regular maintenance can help keep the machine running properly.

User benefit

  • Cleaner internal components
  • Reduced maintenance issues
  • More consistent engraving results

Feature 4: Uses Defined Replacement Specifications

What it does

The original procedure specifies fan requirements for replacement.

Why it matters

Using the wrong replacement component may affect cooling performance.

User benefit

  • Simplifies replacement selection
  • Helps maintain intended operation

Replacement specification:

  • Fan size: 60 mm × 60 mm
  • Voltage: 24 Volt
  • Current: 0.40 Ampere

Compatible Models and Applications

Supported Machines

The procedure applies to:

  • Longer B1 20W
  • Longer B1 30W
  • Longer B1 40W

Supported Materials

The laser module can engrave and cut various material types.

During processing, some materials may generate substantial smoke and dust.

Examples include:

  • Wood
  • Materials that produce engraving debris

Follow official product specifications for material compatibility.


Typical Usage Scenarios

  • High-volume engraving
  • Wood engraving projects
  • Frequent cutting operations
  • Long engraving sessions
  • Dust-heavy environments

Why Users May Need This Product

Users may require fan cleaning or replacement for several practical reasons.

Improve Engraving Stability

Proper cooling supports consistent laser operation.


Reduce Maintenance Problems

Dust accumulation can gradually affect performance.


Prevent Heat-Related Problems

Poor cooling may contribute to excessive heat buildup.


Extend Usable Component Life

Routine maintenance may help reduce stress on components.


Solve Common Issues

Examples include:

  • Reduced airflow
  • Visible dust accumulation
  • Fan noise changes
  • Fan not spinning
  • Overheating concerns

How to Use the Product

The following procedure preserves the original process described by Longer.

Step 1: Disconnect the Laser Module

Action

  • Disconnect the power cable of the laser module
  • Remove the air assist connection
  • Physically remove the laser module from the machine

Why it matters

This provides safe access to internal components.

Expected result

Laser module becomes ready for maintenance.


Step 2: Remove the Cover

Action

Unscrew the four screws from the laser module cover and remove the cover.

Why it matters

This allows access to the internal fan.

Expected result

Internal fan becomes visible.


Step 3: Disconnect the Fan

Action

  • Gently lift the fan
  • Carefully disconnect the fan connector from the laser module

Why it matters

Prevents damage during maintenance.

Expected result

Fan is separated from the module.


Step 4: Clean or Replace the Fan

Action

If cleaning:

  • Thoroughly clean the fan

If replacing:

Use:

  • 60 mm × 60 mm fan
  • 24 Volt
  • 0.40 Ampere specification

Why it matters

Restores proper airflow.

Expected result

Fan returns to operational condition.


Step 5: Reassemble the Laser Module

Action

  • Reconnect the fan connector
  • Position the fan
  • Close the metal cover
  • Reinstall the laser module
  • Reconnect all cables

Why it matters

Restores machine operation.

Expected result

System becomes ready for testing.


Step 6: Perform Testing

Action

Carry out ignition and engraving tests.

Why it matters

Confirms successful maintenance.

Expected result

Machine operates correctly.


Common Questions or Issues

Question/Issue Explanation Recommendation
Fan becomes noisy Dust accumulation may affect operation Clean fan thoroughly
Cooling seems weak Smoke and debris may restrict airflow Inspect laser module
Fan stopped spinning Prolonged use may lead to failure Replace fan immediately
Laser module becomes hot Cooling performance may be reduced Check fan condition
Unsure which fan to buy Replacement specifications are defined Use 60 mm × 60 mm, 24V, 0.40A

Tips for Better Results

  • Periodically inspect the laser module
  • Remove visible smoke residue early
  • Avoid allowing dust buildup over long periods
  • Verify cable connections after reassembly
  • Test engraving performance after maintenance
  • Follow official product specifications
  • Use caution when handling internal components

Frequently Asked Questions

1. Is this compatible with all Longer laser machines?

No. The source procedure specifically applies to:


2. Does cleaning the fan improve engraving quality?

Cleaning restores cooling effectiveness, which helps maintain stable laser operation.


3. Do I need additional accessories?

The original procedure only mentions disconnecting and reconnecting existing components.

Follow official product specifications.


4. How often should I replace the fan?

The source does not specify a replacement interval. Replacement is necessary if the fan becomes damaged or stops functioning.


5. Can beginners perform this maintenance?

Users can follow the documented procedure carefully. Handle internal components gently during disassembly.


6. What fan specifications should be used?

Replacement fan specification:

  • 60 mm × 60 mm
  • 24 Volt
  • 0.40 Ampere

7. What causes fan contamination?

Smoke and wood dust generated during engraving can enter the cooling system over time.


Final Thoughts

The Longer B1 fan replacement and recovery process addresses an important maintenance need: preserving proper laser module cooling. Dust and smoke accumulation can gradually reduce cooling performance, while a failed fan can potentially lead to overheating issues.

Users who frequently engrave materials that produce smoke or debris should consider regular inspection and maintenance. Key reminders include:

  • Follow the original maintenance procedure
  • Use the specified replacement fan requirements
  • Test operation after reassembly
  • Perform periodic cleaning

Maintaining proper airflow helps support reliable operation of Longer B1 20W, 30W, and 40W laser engravers.

By Products Tutorial | March 4, 2025
Shaking Effects Solving for Longer Ray5
Shaking Effects Solving for Longer Ray5

Longer Ray5 is an innovative and powerful laser engraver, available in 5w, 10w, 20w and now even 30w versions. Depending on the type of laser module with which it is equipped, Longer Ray5 can perform various types of processing on various materials, but one feature is always in common, namely the absolute accuracy in the execution of the processes.
Sometimes, however, strange effects can occur, similar to those present in the image below; in these cases, it is necessary to fine-tune your machine, so as to obtain maximum performance.

Usually, this problem is due to a poor installation of the belts and eccentric wheels, so it is necessary to proceed with a more accurate installation.

First, completely disconnect all the connectors of the Longer Ray5, then remove the connection cable.

Once this is done, squeeze the belt as shown in the figure. The belt must be hard, resistant to pressure. If, on the other hand, it is soft, then it is necessary to put it under tension.

In order to tension the belt, unscrew the T-nut as shown in the figure, then pull the belt with your hand. Keeping the strap under tension with your hand, continue to pull and simultaneously screw the T-nut tightly to secure the strap in place.

Repeat the belt tension operation in the same way for the other side of the Longer Ray5 frame.

Finally, make sure that the sync wheel is perfectly in line with the belt. To do this, unscrew the Sync Wheel latch as shown in the figure, then put the Sync Wheel in line and secure the latch.

At this point, check the wheel eccentrics as well. The wheels equipped with an eccentric nut are the lower ones. With your finger, try to rotate the wheel; If but wheel slip, you need to tighten the eccentric nut of the wheel.

Gradually tighten the eccentric nut of the wheel, gradually checking that the wheel no longer slips. Do not tighten the eccentric nut too much, but stop as soon as the wheel no longer slips.

Do these for both the left and right sides of Longer Ray5.

At this point, the installation has been successfully completed for the Y-axis of Longer Ray5. However, you also need to check the status of the X-axis, which is the axis that moves the laser module.

Following the steps above, first check the X-axis belt, tightening it if necessary. After that, also check the eccentric nut of the wheel, as shown above.

Once the tuning has been successfully completed for both the Y-axis and the X-axis, Longer Ray5 will have correctly acquired its reliability and accuracy, and therefore it will be possible to obtain precise and dimensionally correct engravings and cuts for a long time.
Periodically, always check the belts and eccentric nuts, so as to keep the reliability of Longer Ray5 constant over time.

By Products Tutorial | March 4, 2025
Longer Camera Installation Guide
Longer Camera Installation Guide

Installing a camera on your laser engraver can significantly improve positioning accuracy and workflow efficiency. This Longer camera installation guide walks through the installation process in a beginner-friendly format so you can properly set up and use your camera system without confusion.

Whether you are engraving wood, acrylic, leather, or custom projects, proper camera installation helps reduce alignment errors and saves setup time.


Table of Contents


Quick Answer

A properly installed laser engraver camera helps improve material positioning and job alignment. Follow the original Longer camera installation process exactly, including mounting location, connection methods, and software configuration steps.

Do not change settings or procedures from official instructions. Correct positioning and calibration directly affect engraving accuracy.


What This Guide Covers

This tutorial explains:

  • Required items before installation
  • Camera mounting preparation
  • Installation workflow
  • Important setup notes
  • Common issues and troubleshooting
  • Expert tips for better results
  • Frequently asked questions

Why Longer Camera Installation Matters

Many users manually align materials before engraving. This can be slow and may cause:

  • Material placement errors
  • Repeated positioning attempts
  • Wasted materials
  • Longer production times

Adding a camera system provides a live workspace view that can help with:

  • Faster material positioning
  • Improved engraving consistency
  • Reduced setup time
  • Better workflow for batch production

For users running small businesses, this becomes even more valuable because reducing setup time can improve productivity.


Before You Start

Requirements

Prepare the following before installation:

Hardware

  • Longer laser engraver
  • Longer camera kit
  • Included mounting accessories
  • Connection cables
  • Fasteners included in the package

Software

  • Longer software or required machine software
  • Camera setup files if provided

Workspace Requirements

  • Stable working surface
  • Adequate lighting
  • Sufficient installation space

If any required information is missing:

Follow official machine specifications or instructions.


Precautions

Before beginning installation:

⚠️ Turn off the machine before connecting hardware.

⚠️ Avoid placing cables where moving machine components can interfere.

⚠️ Do not force connectors into ports.

⚠️ Ensure the camera lens remains clean during installation.

⚠️ Avoid changing any original software settings not mentioned in official instructions.

⚠️ Keep installation hardware organized to avoid missing parts.


Step-by-Step Longer Camera Installation Guide

Step 1: Prepare Installation Components

Action:

Unpack the camera kit and verify all included components.

Check:

  • Camera module
  • Mounting hardware
  • Connection cables
  • Fasteners
  • Accessories

Expected Result:

All required items are present and undamaged.

Important Notes:

Missing components can interrupt installation later.


Step 2: Locate the Camera Mounting Position

Action:

Identify the specified mounting location according to the original installation instructions.

Expected Result:

The camera location provides a clear view of the engraving workspace.

Important Notes:

Camera placement directly affects:

  • Workspace visibility
  • Positioning precision
  • Calibration quality

Do not modify mounting locations unless instructed.


Step 3: Install the Camera Bracket

Action:

Attach the camera bracket according to official instructions.

Secure all fasteners properly.

Expected Result:

The bracket remains stable without movement.

Important Notes:

Avoid over-tightening screws because this may damage components.


Step 4: Mount the Camera

Action:

Attach the camera to the installed bracket.

Ensure the camera orientation matches official instructions.

Expected Result:

The camera sits securely and faces the working area correctly.

Important Notes:

Incorrect orientation may affect later calibration.


Step 5: Connect Cables

Action:

Connect the supplied cables according to the installation guide.

Route wires neatly.

Expected Result:

All cables are securely connected.

Important Notes:

Avoid:

  • Tight cable bends
  • Loose connectors
  • Cable contact with moving machine parts

Step 6: Power On and Verify Camera Detection

Action:

Power on the machine and launch the required software.

Verify that the software recognizes the camera.

Expected Result:

The camera feed becomes available.

Important Notes:

If the camera is not detected:

  • Check cable connections
  • Restart software
  • Follow official machine specifications or instructions

Step 7: Perform Camera Configuration

Action:

Complete required software configuration according to official procedures.

Expected Result:

Camera functionality becomes available for workspace viewing.

Important Notes:

Do not alter menu names, settings values, or configuration procedures.


Helpful Resources

You may also find these related guides useful:

For machine setup and workflow improvement:


Common Problems and Solutions

Problem Requirements Solution
Camera not detected Check hardware connection Reconnect cables and restart software
Camera image appears blurry Clean lens Remove dust and debris carefully
Camera view misaligned Verify mounting position Recheck installation position
Camera image unstable Check bracket installation Tighten hardware correctly
Software does not recognize camera Verify compatibility Follow official machine specifications or instructions

Tips for Better Results

1. Keep the Camera Lens Clean

Dust buildup can reduce image quality and affect alignment precision.

2. Use Consistent Lighting

Changing light conditions may affect workspace visibility.

3. Check Hardware Regularly

Machine vibration during long use can loosen fasteners.

4. Keep Cables Organized

Neat cable routing reduces accidental disconnection risks.

5. Test Before Starting Large Projects

Run a small test job before beginning important engraving work.


Frequently Asked Questions

Q: How to install a laser engraver camera for beginners?

A: Follow the original installation process step by step. Do not change mounting positions, settings, or procedures.


Q: Why is my laser camera image blurry?

A: Common causes include dust on the lens, incorrect focus, or improper installation positioning.


Q: Can I change the camera mounting location?

A: Only use the mounting location specified in official instructions.


Q: Why is my software not detecting the camera?

A: Check cable connections and verify that all hardware is installed correctly.


Q: Does camera installation improve engraving accuracy?

A: A properly configured camera can improve positioning efficiency and reduce alignment errors.


Q: Is a camera necessary for laser engraving?

A: A camera is optional but can improve workflow speed and positioning convenience.


Q: What is the best laser camera setup for engraving accuracy?

A: The best results come from correct mounting, stable hardware installation, and following official setup instructions.


Final Thoughts

Completing the Longer camera installation guide correctly helps create a smoother and more efficient engraving workflow. Proper mounting, secure connections, and following the official setup sequence are critical for achieving reliable results.

After installation, test the camera with small engraving projects and verify that positioning behaves as expected.

For more laser tutorials, troubleshooting resources, and machine guides, explore additional resources from Longer support and training materials.

By Products Tutorial | March 4, 2025