Semi Auto Can Seamer For Paper Cans

It is a good day--22th Jan!

Our UK customer came to visit our factory and order our Semi-automatic can seamer for paper cans. Once our customer pick up the finished paper cans sample, they give high praise on our cans seaming machine. The paper can samples all go through the sealing test with high leak proof performance.

How the manual can sealer seal the paper cans:

During the can sealing process, the sealer chuck head holds the can when the rollers rotate around it. At first, the 1st operation roller folds the lid and then the 2nd operation rollers tightens the resulting seam.

What will affect shape of the seam?

It is determined by the shape of 1st operation roller, 2nd operation roller, the rollers relative positions and distances, lifter height, lifter pressure.

We will tailor made the tin can sealing machine according to your cans and request, for more information, contact us please!

Busy Working During The Chinese New Year Holiday

  Our Chinese New Year Holiday is from Jan 29th to Feb 12th. During in the holiday, I still need to service for our customer since they will send some inquiry for our product, such as nitrogen tin can sealing machine, automatic round bottle labeling machine etc.

  This time I am going to simply introduce the nitrogen can sealer which has the same function as vacuum tin can sealing machine.It is for high clean requirements for the milk powder, protein powder, CBD buds packing industry. Many customer in medicine CBD industries order this can seamer with nitrogen for their production.

The feature of the machine as below: 

1.Vacuum, Gas Flushing and Seaming in consecutive operations with the single press of a push button.

2.Different options for Vacuum Only, Gas Only, Vacuum + Gas and Multiflush.

3.Final Oxygen Levels achievable of less than 3% (product dependant).

4.Ability to seam a wide range of Can Diameters & Heights with a quick changeover of tooling.

5.4 Roller Can Seaming ensures consistent and leak proof Seams.

6. It is suitable for tin cans, aluminum cans etc


After read the above details, is that you still have some question for this product?

Just contact us, whatsapp: +86 15800042255, email: sales3@utrustpack.com

Wish all of Chinese have a happy holiday, see you soon!

Let's make can Nitro Coffee

Nitro cold brew coffee is now very popular in recent years, it also called "NCB".It will be a richer, less sour taste, less acidic than hot coffee because the beans are steeped for hours (or even days).

How to make the nitro coffee?

As we know, Nitrogen gas does not easily dissolve in water, but it can give the brew a thicker, more velvety mouthfeel.

Usually we use the equipment to infused with nitrogen gas is released through a pressurized valve with tiny holes, then high pressure forces the cold brew past a disc make creates a creamy, stout-like effect.

But as for the nitrogen coffee canning factory, they usually use the liquid nitrogen doser inject the liquid nitrogen in the cold brew before can sealing. please see the advantage for the liquid nitrogen injector:

1.Lightweight PET- reduce the weight of PET for cost and environmental savings
2.Glass to PET Transition - eliminate glass safety hazards and weight of containers
3.Bottle Rigidity - maintain bottle shape even with lighter weight containers
4.Eliminate Paneling- increase the internal pressure to offset paneling issues
5.Oxygen Reduction- create an inert environment to preserve product freshness
6.Extend Shelf Life - minimize oxygen levels
7.Ease of Labeling - consistent bottle rigidity creates an efficient labeling process
8.Reduce Nitrogen Consumption - measurable and repeatable liquid doses
9.Maximize Warehouse Storage Space- increasing product

Stabilize utilizes less square footage
10.Stabilize Organic Products - extend shelf life without preservatives

We could give you solution for the Automatic/ Semi-automatic nitro coffee can filling sealing line, just contact us for more information.

Whatsapp:+ 86 15800042255, Email: sales3@utrustpack.com



Fully automatic N2 packing solution for weeds canning

With the legalization of weeds trading, many American and Canadian businessmen are engaged in the CBD weeds business.

If you are interested in the weeds market, you may know a weeds company called Smartbud. Smartbud has its weeds N2 packing in cans and became packaging standard for the weeds industry.

If you are searching the weeds nitrogen canning equipment, we could help you as we supply both high volume and low volume nitrogen can sealer for weeds.

 

Here is our Nitrogen can packing solution for your weeds:

1. The low volume LN2 can packing: 1 low volume can seamer + 1 liquid nitrogen injector + 1 sticker labeling machine

2. The low volume N2 gas filling canning packing: 1 semi-automatic vacuum nitrogen can seamer + 1 N2 gas generator + 1 air compressor + 1 sticker labeling machine

3. The high volume LN2 can packing: 1 high volume can seamer + 1 liquid nitrogen injector + 2 sticker labeling machine+ 1 plastic lid press capping machine

 

What's more, we supply the 100ml 65*27 cans as Smartbud can too!

Many customer who do weeds business order our equipment, we are professional and sophisticated in weeds N2 can packing.

Please contact us or leave a message here, we would give you suitable solution, thanks!

Email: Sales3@utrustpack.com, Whatsapp: +86 15800042255.

10 Essential Techniques to Reduce Excavator Fuel Consumption and Boost Efficiency

In modern construction and engineering projects, excavators play an indispensable role. However, in daily operations, many excavator operators overlook how to optimize their actions to reduce fuel consumption and improve work efficiency. This article offers practical tips to help you operate excavators more effectively, save fuel, and boost productivity.

 

1. Plan Ahead to Avoid Inefficient Operations

Fuel consumed during unnecessary excavator movements is almost entirely wasted. Therefore, it's crucial to develop a detailed work plan based on the construction site conditions before each operation. Proper planning can help avoid unnecessary actions, thereby reducing fuel consumption and improving work efficiency.

 

2. Utilize Optimal Digging Angles

During excavation, when the bucket cylinder and linkage, as well as the arm cylinder and arm, are at a 90° angle, the digging force is at its maximum. Operators should aim to dig at this angle to achieve optimal work efficiency. This not only reduces equipment wear but also significantly lowers fuel consumption.

 

mid size crawler excavator

 

3. Master Ground Digging Techniques

When digging on the ground, maintain the bucket or ripper floor angle at approximately 30° and retract the arm. When the arm is nearly vertical, the digging force is strongest. This technique not only allows for greater load capacity but also saves fuel, making the digging process more efficient.

 

4. Control the Operating Radius

At the start of digging, do not extend the arm to its maximum range. The ideal approach is to begin digging at about 80% of the arm’s operating radius. As the operating radius increases, the digging force decreases, making the operation more difficult. Therefore, especially for novice operators, it's important not to sacrifice efficiency for a larger operating range.

 

5. Maintain Consistent Loading Heights

During loading operations, try to keep the excavator at a higher position, so that the truck is parked at the same height as the working surface. Just like handing over an object from a higher position is easier than from a lower one, the same principle applies to excavators. The less effort the excavator exerts, the lower the fuel consumption.

 

LTMG 23 ton excavator

 

6. Segmental Digging Is More Economical

When performing deep excavation, it is advisable to use a segmented approach, digging in three layers: top, middle, and bottom. If you dig directly from the bottom to the top, the operating range increases, the digging force becomes greater, and the excavator may need to increase output torque, reducing flow output. This not only lowers work efficiency but also consumes more fuel.

 

7. Optimize Swing Angles

During loading operations, the excavator’s swing angle should not exceed 60°, with the optimal range being 30° to 45°. The smaller the angle, the faster the swing, the higher the work efficiency, and the lower the fuel consumption. Optimizing the swing angle can effectively enhance the excavator’s productivity.

 

8. Efficient Trenching

When trenching, first excavate the sides of the trench before digging the middle. This approach saves time and effort, reduces fuel consumption, and significantly improves work efficiency.

 

excavator trenching works

 

9. Tips for Continuous Operation

During continuous digging, ensure the undercarriage is facing the direction of travel. This technique allows the excavator to move immediately after completing a task, avoiding the need to reposition during travel, which would otherwise waste fuel.

 

10. Use Economy Mode and Auto-Idle

The final fuel-saving tip is to set the engine throttle to the economy mode and select the auto-idle function. When excavation stops, the engine will automatically idle, preventing unnecessary fuel consumption. These small tips might go unnoticed during regular operations, but by adhering to them consistently, you will see a significant reduction in fuel costs over time.

 

By applying these operational techniques, excavator operators can not only enhance work efficiency but also significantly reduce fuel consumption, saving substantial costs for businesses. With good operating habits, the savings on fuel can accumulate over time, bringing unexpected benefits.

 

LTMG excavator manufacturer

 

As a Chinese construction machinery manufacturer with over 20 years of experience, LTMG excavators are designed with fuel efficiency in mind. They feature advanced power systems and precise hydraulic control, ensuring that every machine performs reliably under high-intensity operations while minimizing unnecessary fuel waste. Choosing LTMG means choosing a reliable, economical, and efficient partner that brings higher returns to your projects.

How to Improve the Efficiency of Wheel Loaders

Wheel loaders play a crucial role in industries such as construction, mining, and agriculture. Enhancing the efficiency of wheel loaders can reduce operating costs, increase productivity, and extend the equipment's lifespan. In this article, we will explore various approaches to improving wheel loader efficiency, including operational techniques, maintenance practices, technological upgrades, and work environment optimization.

 

wheel loader working in sandpit

 

Operational Techniques

1. Skilled Operation

The skill level of the operator directly impacts the efficiency of the wheel loader. Regular training and skill enhancement can enable operators to handle the equipment more proficiently, reducing errors and improving work efficiency. Skilled operators can quickly complete loading, transferring, and unloading tasks, maximizing the potential of the equipment.

2. Planning Work Routes

Properly planning work routes can reduce unnecessary travel and waiting time, thereby improving work efficiency. Operators should plan the optimal work route in advance based on site conditions to avoid repetitive travel and unnecessary waiting. Additionally, minimizing turns and reverse operations can enhance the overall efficiency of the loader.

3. Using Appropriate Work Modes

Different work modes are suitable for various conditions. Operators should select the appropriate work mode based on actual needs to optimize the loader's performance. For example, choosing high-power mode for heavy-duty operations and energy-saving mode for light-duty tasks can save energy while ensuring work efficiency.

 

Maintenance Practices

1. Regular Inspection and Maintenance

Regular inspection and maintenance are fundamental to ensuring the efficient operation of wheel loaders. Operators should follow the equipment manual's guidelines, regularly inspect and replace engine oil, hydraulic oil, filters, and other consumable parts, and clean the air filter in a timely manner to maintain the engine and hydraulic system in good condition. Regular maintenance can extend equipment life, reduce failure rates, and improve work efficiency.

2. Checking Tires and Suspension System

The condition of tires and the suspension system directly affects the loader's work efficiency and safety. Operators should regularly check tire pressure, wear conditions, and suspension system connections to ensure proper tire pressure, even wear, and normal operation of the suspension system. Inadequate or excessive tire pressure can affect the stability and fuel economy of the loader, thereby reducing work efficiency.

3. Lubrication and Fastening

Lubrication and fastening are crucial aspects of equipment maintenance. Operators should regularly check the lubrication of various parts and timely add lubricating grease to ensure smooth operation of all components. Additionally, regularly inspecting the tightness of bolts, nuts, and other fasteners can prevent loosening or falling off, ensuring safe and reliable operation of the equipment.

 

 

Technological Upgrades

1. Upgrading the Hydraulic System

The hydraulic system is one of the core components of a wheel loader. Upgrading the hydraulic system can enhance the equipment's work efficiency and operational flexibility. For instance, using high-efficiency hydraulic pumps and intelligent control systems can reduce energy loss, improve the hydraulic system's response speed and control accuracy, thus increasing the loader's work efficiency.

2. Adopting Advanced Engine Technology

The engine is the power source of the loader. Adopting advanced engine technology can improve fuel efficiency, reduce emissions, and lower operating costs. For example, using high-pressure common rail injection technology, turbocharging technology, and exhaust gas recirculation technology can enhance the engine's combustion efficiency and power output, thereby improving the loader's work efficiency.

3. Applying Intelligent Control Technology

Intelligent control technology can significantly improve the work efficiency of wheel loaders. For instance, using GPS positioning and real-time monitoring systems can optimize work routes and monitor equipment status in real-time, reducing errors and downtime. Additionally, applying automation technology can reduce the operator's labor intensity, improving work efficiency and quality.

 

Work Environment Optimization

1. Leveling the Work Site

A leveled work site can reduce the loader's driving resistance and bumpiness, thereby improving work efficiency. Before construction, operators should level the work site, remove obstacles and debris to ensure smooth operation of the loader.

2. Proper Work Scheduling

Proper work scheduling can increase the loader's utilization rate and work efficiency. Operators should reasonably arrange work hours based on actual conditions, avoiding extreme weather conditions such as high temperatures or rain and snow, to reduce equipment wear and failure rates. Additionally, scheduling continuous work sessions can reduce the number of equipment startups and shutdowns, thereby improving work efficiency.

3. Enhancing Team Collaboration

Team collaboration is crucial for improving work efficiency. Operators should closely cooperate with personnel from other trades and positions, ensuring reasonable division of labor to ensure smooth and efficient work processes. For instance, loader operators should coordinate with excavator and truck drivers to ensure efficient loading and transferring, reducing waiting time and enhancing overall work efficiency.

 

7 ton wheel loader

 

Improving the efficiency of wheel loaders requires a multifaceted approach, including operational techniques, maintenance practices, technological upgrades, and work environment optimization. By enhancing the skills of operators, regularly inspecting and maintaining equipment, adopting advanced technologies, and optimizing the work environment, the work efficiency of wheel loaders can be significantly improved, reducing operating costs and extending equipment life. In practice, companies should develop scientific and reasonable management measures based on their specific conditions to comprehensively improve the operational efficiency and productivity of wheel loaders.

The difference between using ball screw and ordinary screw in linear module

1. The transmission efficiency is different. The transmission efficiency of the ball screw is as high as 90~96%, while the transmission efficiency of the ordinary screw is about 26~46%. That is to say, under the same size of complexity, the ball screw can use a smaller driving power, which can effectively reduce production costs, reduce losses, and increase more benefits for the enterprise.

2. The transmission speed is different. The ball screw is rolling friction, and the ordinary screw is sliding friction. When the transmission is running, the temperature rise of the former is much lower than that of the latter. The ball screw can undertake high-speed transmission tasks.

 

3. The precision is different. The friction coefficient of the ball screw can be 0, but the ordinary screw directly increases the force at both ends of the sample through linear motion, so it has a certain sliding friction coefficient. Compared with the ball screw, the precision and efficiency are relatively low.

 

4. The service life is different. The surface friction of the ball rolling friction is small. Under the premise of reasonable operation of various cleaning and maintenance, the service life of the ball screw is longer than that of the ordinary screw.

 

5. Difference in self-locking property. Ball screws have almost no self-locking property and have reversibility of transmission; while ordinary screws have self-locking property.

6. Difference in economic efficiency. Ball screws are more complicated than ordinary screws, but they are also better, so the price of ball screws is a little higher than that of ordinary screws.

 

In general, ball screws and ordinary screws have their own advantages and disadvantages, but ball screws are better than ordinary screws in terms of transmission efficiency, transmission speed, accuracy, load, life, etc., so they are more suitable for use in linear slide modules.

CNC Moving Table vs. Gantry

Introduction

Computer Numerical Control (CNC) refers to the automated control of machining tools like routers, lathes, grinders, etc., using computers. CNC has revolutionized manufacturing technology by bringing highly accurate and programmable capabilities for machining parts and products.

Such machines as computer numerical controlled (CNC) routers are made use of in the cutting, drilling and shaping of woods, plastics,and glasses light metals, composites among other materials. They are important in industries such as aerospace, automotive construction furniture signage among others.

This detailed comparative guide examines the core differences between moving table and gantry CNC routers through various parameters. We will discuss key factors like mechanical design, cutting performance, accuracy, material compatibility, maintenance requirements, cost implications, and user-friendliness so that readers can better understand these two router designs. Let’s look into it.

 

Understanding CNC Designs

First off, understanding the key features of these two designs is vital to choose between a moving table and a gantry CNC router.

What is a CNC Moving Table Router?

 

A moving table CNC router comprises of a fixed gantry and a moving table. The stationary gantry is made up of one or more axes normally the z-axis that holds the spindle and cutter. Precision linear guides and drive systems are used to move the work piece under the stationary gantry, which delivers X-Y motion.

The prime benefit of this type of design is its exceptional static rigidity. It is possible to get an optimized force distribution across workpiece material with a stationary gantry. Also, there can be very high acceleration/deceleration rates as well as cutting speeds in use if a moving table platform is available. While machining, this means that the material remains stationary on the moving table while the head moves upwards along the Z-axis.

Due to their requirement for adequate space for movement across the workspace, moving-table CNC machines need larger installation areas than others do. They are ideal for handling large and heavy materials due to stable fixturing on the movable bed. Thus, industries such as aerospace, automotive, construction or ship-building dealing with big parts widely utilize them in their cutting and machining operations.

 

What is a Gantry CNC Router? 

In gantry style CNC routers, the table is fixed and stable while the gantry moves along the X,Y and Z axes to put the cutting tool right above the work piece. The gantry comprises of a bridge like structure that extends over the entire working area, with motion on the table being driven by high precision linear or rack and pinion drives.

The table provides a rigid base for holding down work materials while they are cut using a gantry flying overhead. Gantry CNC machines take up less installation space making them ideal for small spaces. In wood, plastics, soft metal (eg aluminium) routing drilling milling applications etc.

Furniture making, musical instruments production, arts, jewelry design and sign writing among others employ such routers since they are compact regarding size thus being cost-effective and versatile. Enclosed gantry routers fitted with extra covers and seals help reduce vibrations during operation enhancing accuracy too.

 

Quick Comparison

Here is a quick comparison of the key differences between CNC moving table and gantry designs:

Parameter

Moving Table

Gantry

Structure

Stationary gantry, moving table

Moving gantry, fixed table

Rigidity

Excellent, minimal vibration

Moderate, may vibrate under load

Precision

Very high, even at high speeds

Moderate, vibration affects accuracy

Material suitability

Hard materials like metals, composites

Softer materials like wood, plastic

Footprint

Larger, needs space for table movement

Compact, smaller footprint

Cost

More expensive

Lower cost of ownership

Ease of use

Needs skilled operators

Shorter learning curve

 

Comparative Analysis

 

Having a basic understanding of moving table and gantry CNC routers, we can compare them in detail.

Structural Differences

The main difference between moving table and gantry routers is found in their mechanical structure and arrangement.

To lessen vibration, moving table CNC machines have very rigid and heavy-duty gantry constructions. It is achieved by using linear motion guides employing recirculating ball bearings or box ways to provide low friction smooth movement of tables. The table itself is made up of thick cast iron or welded steel that withstands cutting forces and dampens chatter.

On the other hand, gantry routers employ lighter bridges constructed from extruded aluminum or steel profiles that are designed to minimize weight as well as reduce cost. The X-axis movement in the work zone is provided by a movable carriage on which the gantry rests. This allows for Y-axis movement.

Gantry routers have smaller installation area compared to other types of CNC machines like bridge machines, but when engaged on heavy duty cutting projects they may vibrate due to the motion of the bridge hence affecting the precision slightly. In contrast to this, moving table routers do not experience vibrations because their gantries are stationary.

Design configurations are more flexible with Gantry machines compared to Moving Table ones. Size and layout optimization can be done using such options as cantilevered, enclosed or moving-gantry type, among others. Meanwhile, under gantry there is only one plane where a fixed layout describes motion taking place over a tabletop for these machine tools.

 

Performance Characteristics

The performance attributes of these two CNC router types are influenced by their structural differences.

High accuracy and repeatability are characteristics of moving table CNC machines. This is attributed to the fact that they have rigid gantries that do not allow for vibrations, thus allowing them to work at high cutting speeds and feeds with high levels of accuracy. Additionally, their fast cycle times are attributed to quick table movement.

Due to heavy-duty operations, gantry routers may vibrate a little causing reduced precision. However, for light duty applications they can match or surpass moving table precision and accuracy. Enclosed gantries and precision components help in reducing positional errors leading to good performance.

Moving table routers are designed for mass production activities where there is need for consistent quality and low tolerance machining. Gantry routers on the other hand are ideal for low to medium duty uses that don’t require extremely high level of precision.

 

Material Compatibility

The type of materials that can be effectively machined depends on the choice of CNC router design as well.

Some hard materials such as hard wood, composites, non-ferrous metals etc require a moving table CNC machine which has static rigidity and vibration dampening qualities that are enough for cutting them. The stationary bridge prevents any chatter when cutting thus making it one of the best choices.

Gantry routers may suffer from some chatter and inaccuracies when machining harder materials particularly if they have cantilever designs. They are good for softer materials such as plastics and woods and aluminum where vibrations are not critical in their manufacturing process. Enclosed gantries help in enhancing resonance damping thereby improving material compatibility.

There are more reasons why moving table CNC routers would be preferred over other machines especially when cutting thick or dense materials. Gantry machines suit lighter routing duties and milling tasks with wood, plastics and sheet metals.

 

Pros and Cons of Each Design 

Now let us look at the specific advantages and limitations of moving table and gantry CNC routers.

Advantages of Moving Table CNC Routers

● Minimal vibration and excellent static rigidity make these machines suitable for heavy-duty cutting

● Even at high speeds, they can maintain their high precision as well as repeatability

● It is made with an even force distribution that helps in the machining of difficult materials without any chatter

● They are also good for use on large or heavy materials because they have stable fixturing

● Gantry components are more accessible for maintenance purposes

Disadvantages of Moving Table CNC Routers

● Table movement requires more installation space

● The size of the work envelope depends on the dimensions of the table

● More expensive than gantry routers

● Not suited to small machining requirements

Advantages of Gantry CNC Routers

● The compact footprint saves installation space

● Some examples include- cantilevered types, enclosed etc.

● Moving table ones tends to be cheaper

● These are ideal for small to medium sized pieces

● Less complex designs allow more do it yourself constructions

Disadvantages of Gantry CNC Routers

● Vibrations could affect accuracy when working with harder materials

● Heavy duty woodworking requiring tight tolerances will not work well here

● Moving the gantry adds complexity to maintenance issues

● Reduced stiffness or poor damping ability

 

Cost Comparison

 

Usually a consideration is the purchase cost when deciding between moving table and gantry CNC routers. Here are some comparisons.

Initial Investment

Moving-table CNC machines cost much more initially than gantry routers do. Such large-sized industrial grade machines are costly because they have a heavy gantry, precision linear guides, drive systems to move the table, vibration dampening features etc.

For lower volume production needs, Gantry Routers tend to be less expensive. In comparison to an equally sized moving table router, a cantilever gantry machine can cost considerably less. Enclosed gantries come at higher prices due to the additional enclosure, seals, and improved components.

In very high tolerance cutting and machining applications, the initial investment on moving table routers pays for itself in the long run. They offer good value for money as they can perform medium duty work with low precision, unlike their counterparts.

Long-Term Costs

On average though, moving table routers turn out cheaper in terms of overall costs incurred over time due to their solid construction and minimal maintenance requirements. The stationary gantry resolves the wear issues that occur as parts move hence reducing repair expenses.

However, it should be remembered that these types of bridges or carriages require more frequent servicing which leads to increased long term costs. Malfunctions are easily experienced by mobile parts with time since they become worn out faster than other components. Also replacement or repair of such items as linear guides rack and pinion systems etc., is more expensive on Gantry machines rather than simpler built moving tables.

Over many years of running businesses with high production volumes, lifetime costs remain lower compared with moving table CNC machines, even if they have higher initial purchase prices.

 

User Considerations

The difference between moving table and gantry CNC routers is also influenced by operator skills level, among others.

Skill Level and Experience

In order to maximize the benefits of operating a moving table CNC router, one must possess a person who has some experience in running CNC machines. These machines are aimed at being used by skilled users in manufacturing setups owing to their complex maintenance, extreme precision, and heavy industrial duties.

On the other hand, all you need is basic training on how to operate gantry routers which can be owned by both amateurs and experts alike. Moreover, they have lower costs of management hence small ventures such as schools or hobbyists who don’t have enough experience with computer numerical control can afford them. They also come with friendly user interfaces that make operations much easier.

Application Needs

It is necessary to consider specific application requirements before selecting between these two router designs.

For substantial cutting loads, high hourly production rates, big work pieces or low tolerance machining applications; stiff movable bed type CNC machines are highly suggested. Consequently; moving table routers are seen as ideal options since they provide stability and accuracy for such tasks that require high standard of performance.

Whereas cost-effective light to medium duty cutting may be required for smaller parts then gantry types offer a solution. Also they can be deployed where space for installation is very scarce because they flexibly fit into smaller areas.

 

Conclusion

Evaluation of rigidity, precision, speed, footprint, ease of use, and cost reveals that moving table and gantry CNC routers have different strengths. Industrial environments cannot find unmatched tools like the moving table routers for heavy duty precision machining applications. The gantry routers are an option for cost-sensitive light to medium duty work.

There is no superior CNC router design by definition. This therefore means that users must properly evaluate their specific machining needs in terms of workpiece size, materials used, precision required, production volumes and budget constraints. Thus knowing whether a moving table machine or a gantry router is most suited for their applications is determined by this analysis. Beginners should consult with professionals in order to avoid committing mistakes when purchasing CNC equipment.

Both moving table and gantry CNC routers provide unique benefits that make a difference in various manufacturing processes taking place around the world. Consequently, businesses optimize productivity and quality as well as maximizing return on investment through selecting the right design depending on their requirements.

Daily Maintenance Of CNC Machining Center

In order to better maintain various CNC machining center equipment, formulate appropriate inspection and maintenance specifications for different characteristics of each model, accurately implement daily maintenance, ensure the accuracy and stability of the equipment and extend the service life of the equipment, ensure safe production, avoid the occurrence of industrial accidents, and achieve the purpose of safety and efficiency. This document is specially formulated;

Scope: The daily inspection and maintenance operations of the CNC machining center equipment used are all specifications;

Daily maintenance: refers to the maintenance that CNC machine tool operators must perform every shift, mainly pre-shift and post-shift inspections to keep the equipment clean and check the condition of machine tool parts, lubrication conditions, and whether the screws are loose, etc.;

 

CNC Machine Daily Maintenance

1 The indicator lights on the operation panel are working properly and there are no abnormal alarms

2 Confirm that the air pressure gauge is within the range of (0.4-0.6MPa) and there is no air leakage in the air compression system

3 Confirm that there is no abnormal noise in the motor and moving parts

4 Wipe the operation panel with a dry cloth to keep the panel clean

5 Clean the cutting fluid filter and keep it clean, and confirm that there is no water leakage in the cutting fluid pipeline

6 Check whether the cutting fluid level is normal, and adjust it if it is not normal

7 At the end of each shift, rinse the debris and other debris in the machine to keep the inside of the machine clean

8 Confirm that the spindle cooling fan is working properly

9 Check the safety door function. It is normal for the machine to stop running when the protective door is opened during machine operation

10 Check the air pressure detection function. It is normal for the air pressure to be too low to alarm when the air source is turned off

11 Check the emergency stop function. It is normal for the machine to stop running immediately when the emergency stop button is pressed during machine operation

12 Check whether the auxiliary equipment of the machine is intact and clean

CNC Weekly Maintenance

1 Wipe the surface of the machine with a dry cloth to keep the appearance clean

2 Clean the cutting fluid tank and pipes to remove foreign matter and keep the pipes unobstructed

3 Clean the spindle end face, spindle taper hole and tool magazine and wipe them clean with a cloth

4 Remove moisture from the water collector of the three-point combination

 

CNC Monthly Maintenance

1 Add grease to the XYZ three-axis and tool change mechanism

2 Clean the cooling fan filter of the electric cabinet

3 Check whether there is water or oil in the electric control box, and clean it if there is

4 Use the manual function to make the XYZ three-axis move the entire distance and check for abnormal noise

5 Clean the spindle cooling fan

6 Check whether the anchor screws are firm, and adjust the level of loose and unstable equipment

7 Clean the appearance of the oil recovery device and the filter element, check whether it is working properly, the motor has no vibration noise, and the oil return pipe is unobstructed;

Equipment Regular Maintenance

Monthly: Check the three-axis motor and moving parts for abnormal noise; Check the machine tool parameters for abnormalities; Check whether the air pressure is within the range of (0.4-0.6MPa) for air leakage; Check whether the shield and exposed pipelines are damaged; Check whether the lubricating oil system is working properly and whether there is oil leakage; Check whether the safety device is damaged (door lock, emergency stop switch, etc.);

Quarterly: Clean and maintain the debris in the XY axis sheet metal; Clean the cutting fluid tank and foreign objects in the pipeline to keep the pipeline unobstructed; Clean and maintain the spindle cooling fan; Check whether there is water or oil in the electric control box, and clean it if there is; Check whether the exhaust fan of the electric control box is working properly; Clean the appearance of the oil recovery device and the filter element, and check whether it is working properly; Semi-annual : Check whether water or oil has entered the transformer, and whether the exhaust fan is working properly; check whether the anchor screws are firm; clean the spindle end face and taper hole, and wipe them clean with a cloth; clean the tool magazine and check whether the tool holder is damaged; check whether the fans of each driver are operating normally; whether the water pump and oil recovery machine motor have vibration noise;

Annual: Check whether the tool magazine spring and each screw bearing are worn; check whether the machine tool backup battery has power; back up the machine tool certification documents and parameters; check whether the spindle tension is within the normal range; check whether the main power terminal and each terminal in the electric control box are loose; check whether the machine tool geometric accuracy is within the normal range; perform annual equipment accuracy inspection according to the "CNC machining center accuracy inspection table";

 

 

 

Litmash&Metalurgy Russia 2024

Litmash&Metalurgy Russia 2024: Revolutionizing Brick Production with Lianda Brick Making Machine

In an ever-evolving world driven by innovation and advanced technology, the stage is set an impressive display of engineering marvels at Litmash&Metalurgy Russia 2024. Amidst the awe-inspiring array of cutting-edge machinery, one name is making waves and ushering in a new era in brick production – Lianda Brick Making Machine.

Lianda Brick Making Machine, an epitome of excellence and precision, stands tall as the embodiment of ingenuity in the field. Its sleek design and state-of-the-art features have attracted the attention of industry leaders and enthusiasts alike, awakening a sense of futuristic possibility in the realm of construction.

At the forefront of its groundbreaking capabilities lies Lianda's enhanced automation system. This ingenious integration of intelligent software and robotics streamlines production processes, eliminating human error and enhancing efficiency to unprecedented levels. It is a true testament to the power of technology to revolutionize traditional industries.

 

Moreover,  Lianda Brick Making Machine boasts unbelievable versatility, capable of producing a wide range of brick types to cater to diverse architectural requirements. From conventional clay bricks to eco-friendly alternatives, the machine adapts effortlessly, appeasing the demands of sustainable construction practices. Throughout the exhibition, spectators were captivated by the seamless transition between various brick textures, colors, and sizes, all made possible by this remarkable invention.

Yet,  Lianda Brick Making Machine's influence extends beyond merely reshaping the manufacturing process. It embodies a conscientious dedication to environmental preservation. With its eco-friendly operation and optimized energy consumption, it serves as a beacon of hope, suggesting that progress need not come at the expense of our planet. This commitment to sustainability not only aligns with evolving industry norms but also with the global pursuit of a greener future.

Visitors to Litmash&Metalurgy Russia 2024 couldn't help but feel a sense of anticipation and exhilaration when witnessing the prowess of the Lianda Brick Making Machine. Its presence at the exhibition signifies a turning point in the construction industry, heralding a new generation of advanced technology that transcends traditional production methods.

As we look ahead to the future, one can only imagine the transformative impact Lianda and its Brick Making Machine will have on the global construction landscape. With a visionary mindset and an unwavering commitment to innovation, this remarkable invention has truly etched its name in the annals of progress, making Litmash&Metalurgy Russia 2024 an unforgettable milestone in the tale of modern craftsmanship.

In conclusion,Lianda Brick Making Machine's debut at Litmash&Metalurgy Russia 2024 is a testament to human creativity and the potential of technology to reshape industries. With its unrivaled efficiency, versatility, and sustainability, it epitomizes the essence of progress. As it ushers in a new era of brick production, it leaves us eagerly anticipating the architectural masterpieces that will grace our world in the years to come.