5 Reasons Why Your Business Needs pipe automatic feeding device？

What is a CNC Metal Pipe Laser Cutting Machine?

CNC metal pipe laser cutting machine is an automatic tube cutter that can create precise metal tube cuts in various shapes and styles with the cooperation of computer and laser generator. CNC laser tube cutting machines can cut any programmed shape on metal tubes in various directions and angles. The laser-cut shapes can be designed and updated flexibly and quickly through computer programming. The high flexibility of laser tube cutters provides strong technical support for more and more personalized metal fabrication, thereby reducing the use of molds and labor costs.

Click here to get more.

The modular design with the CNC controller realizes the unmanned and full data production of the pipe cutting operation. Compared with traditional metal pipe cutting system such as flame cutting, plasma cutting and water jet cutting, the precision of laser-cut metal pipes is much higher. The CNC laser tube cutter can be flexibly adjusted according to these deformations, which is also beyond the reach of many traditional metal tube cutting tools.

CNC laser tube cutting machine features with centralized operation, flexible cutting, automatic loading and unloading, and the clamping is convenient and fast. It comes with precision rack and double drive mode, which is easy to maintain and maintain, and is basically maintenance-free. It works with professional tube cutting software, which is the fundamental guarantee for effectively saving materials and improving cutting efficiency. Based on these advantages, laser pipe cutting machines are widely used in the processing of round pipes, square pipes, rectangular pipes and special-shaped pipes in fitness equipment, office furniture, kitchen cabinets and other industries.

How Does a CNC Laser Tube Cutter Work?

Laser tube cutters use a CNC controller to direct the fiber laser cutting head to cut in various directions and angles, combined with a chuck on a rotary attachment to rotate the metal pipe and move it in and out, resulting in precise shapes, holes, slots, structural sections, channels, tube-end facing, mitre cuts, and custom designs on square, round, rectangular, oval, and shaped metal tubes, tubulars and profiles.

Advantages of CNC Laser Tube Cutting Machine with Automatic Feeding System

Side-hanging machine bed

Side-hanging design, lower center of gravity, stable and reliable operation, laser blanking, precision error within 0.5mm, to improve cutting precision.

Semi-automatic feeding device

Quickly loading tubes one by one. No need manual intervention, saving labor costs and increasing production efficiency.

Fully automatic self-centering pneumatic chucks.

Precision pneumatic chucks, four-jaw automatic centering clamping, stable clamping without damaging the workpieces, high cutting efficiency.

Chuck jumping for short tailings (K without)

K series can shorten the tailing length through chuck jumping.

Servo follow-up support (K normal type)

The cutting table comes with with highly sensitive and independent servo follow-up support to provide enough support force in rotation cutting and achieve high cutting accuracy.

Raytools laser cutting head

Creating complex tube cuts with a slender TRA component and a slender nozzle.

MAX laser source

Long lifespan up to 100,000 hours with high cutting speed. G5 connector for aluminum cutting. Raycus and IPG laser sources are optional.

FSCUT EtherCAT bus control system

Various auxiliary features of tube cutting is are designed to satisfy multiple processing demand.

Tubepro controller with TubesT-Lite nesting software.

3D preview of the metal tube to be cut, which is user friendly and easy to operate. The TubesT professional nesting software is optional for pipes of L-type and C-type.

Full-automatic feeding devicefor K optional

Automatic material preparation is synchronized during the processing, shortening the tube change time and improving production efficiency.

Beveling processing optional

Beveling tube cutting head (optional) is used to handle 0-45°beveling cutting.

CNC Metal Tube Laser Cutting Machine with Automatic Feeder technical parameters

BrandSTYLECNCModelST-FCTKST-FCKST-FCKTube Diameterφ10-φ120mmφ15-φ230mmφ20-φ350mmTube Length≤mm≤mm≤mmMaximum tube weight100KGS300KGS900KGSShortest remaining material45mm70mm120mmLaser PowerW ( W and W for Option)Laser GeneratorMAX (Raycus and IPG for Option)Laser Cutting HeadRaytoolsCNC ControllerFSCUT control systemPositioning accuracy±0.05mmRepeated Positioning Accuracy±0.03mmElectricity380V,220V, 50HZ or 60HZ (based on order)Price Range$25,000.00 - $66,800.00

Applications of CNC Laser Tube Cutter Machine with Automatic Loading & Unloading System

1. Automotive Industry: They are applied to cut various metal tubes for manufacturing automotive frames, exhaust systems, and suspension components. For example, precisely cutting the tubes used in car chassis structures to ensure accurate fit and high - strength connection, which improves the overall safety and performance of vehicles.

2. Aerospace Industry: These machines play a crucial role in fabricating parts for aircraft and spacecraft. They can cut complex - shaped metal tubes with high precision for engine components, fuel pipelines, and structural frameworks, meeting the strict requirements of lightweight design and high - reliability in aerospace applications.

3. Furniture Manufacturing: In the production of metal - framed furniture, small - sized metal tube laser cutting machines are used to cut tubes into different lengths and shapes. This enables the creation of unique and stylish furniture designs, such as modern - style chairs, tables, and shelves, with smooth edges and accurate dimensions.

4. Medical Equipment Manufacturing: They are used to cut metal tubes for medical devices like surgical instruments, hospital beds, and rehabilitation equipment. High - precision cutting ensures the quality and safety of medical products, which is of vital importance in the medical field.

5. Electronics Industry: For the production of electronic device enclosures and internal support structures made of metal tubes, these cutting machines provide precise cutting solutions. This helps to meet the miniaturization and high - performance requirements of modern electronic products.

Laser Cut Metal Pipe Projects

Things To Consider

CNC laser tube cutting machine is a high-quality fiber laser metal cutter that can achieve high-speed and high-efficiency cutting of round tubes, square tubes, special-shaped tubes and other metal shapes. Especially with the popularization and promotion of the concept of automation in recent years, the newly upgraded metal pipe laser cutting machine production equipment not only achieves automatic production and processing, but also improves the limitations of traditional laser cutting, saves time and effort, reduces costs, and is faster and faster. With high precision, it can achieve fine laser cutting of pipe punching, cutting, intersecting lines and various special-shaped and complicated patterns that are difficult to achieve by conventional methods. What should be considered in the daily use?

1. The spindle speed change must be carried out after parking. Gears should be fully engaged when shifting. When the machine tool is found to be abnormal, stop the machine immediately for inspection.

2. Before cutting, adjust the tool and clamp the work. The length of the clamping part shall not be less than 50 mm. The parking baffle should be fixed, and the work can only be carried out after the sequence test of clamping, loosening, forward, and backward.

3. When the machine tool is rotating, no part of the human body should contact the transmission parts. When operating, tie the cuffs, and it is strictly forbidden to wear gloves to work. The human head should deviate from the cutting direction.

4. When changing the tool, measuring the workpiece, lubricating, and cleaning the pipe head, it must be stopped.

5. When cutting the pipe head, it is necessary to prevent the pipe head from flying out and hurting people.

6. When the long material pipe is put into the material rack and the lead wire is loosened, measures should be taken to prevent the pipe from rolling, impacting and crushing people.

7. When using the grinding wheel pipe cutting machine, you should check in advance whether the grinding wheel is damaged, cracked, damp, and whether the power cord is reliable.

8. The dust removal device of the pipe cutting machine should be in good condition before cutting.

9. No one should stand in the direction of workpiece in and out.

Package for CNC Metal Pipe Cutting Machine with Fiber Laser Generator

1. Strong water resit bottom in plywood.

2. Laser source (separated plywood case) and spare parts on the laser bed.

3. Corner protect by foam and fixed by protective film.

4. All covered by strong and hard protective film.

5. Vacuum packing.

6. Inside steel frame protector.

7. Plywood packing and steel strip outside fixed the box.

8. Finishing packing by normal container or frame container.

Pre-Sale Service for CNC Metal Tube Cutting System with Fiber Laser Generator

Free Sample Cutting Service

For free sample cutting/testing, please send us your CAD file (.plt or .ai), we will do cutting in our factory and make video to show you the cutting process and result, or send samples to you to check the cutting quality.

Progressing Solution Design

According to customer’s product processing requirement, we can design the unique solution that supports higher manufacturing efficiency and better processing quality for customer.

Customized Machine Design

According to customer's application, we may revise our machine according to customer's convenience and high production efficiency.

After-Sale Service for CNC Laser Metal Tube Cutter with Fiber Laser Generator

1. We will supply the laser machine with training video and user's manual in English for installing, operation, maintenance and trouble-shooting, and shall give technical guide by remote,such as TeamViewer, , , Mobile, , Skype, 24/7 online chat, and so on, when you meet some problem of installation, operation or adjusting. (Recommended)

2. You can come to our laser machine factory for training.We will offer professional guidance. Direct and effective face-to-face training. Here we have assembled equipment, all sorts of tools and testing facility. Training Time: 3~5 days (Recommended)

3. Our engineer will do a door-to-door instruction training service at your local site. We need your help to deal with the visa formality, prepaid traveling expenses and accommodation to us during the business trip and service period before their dispatch. It's better to arrange a translator (if no English-speaking) for our engineers during the training period.

Warranty for CNC Laser Metal Pipe Cutting System with Fiber Laser Generator

1. The entire machine comes with 1-year limited warranty (excluding consumable parts).

2. Long life-time maintenance, after-sale department will offer 24/7 English online support.

3. Except the damage artificially, we are responsible for offering the fittings free of charge during warranty.

4. After the warranty period expired, the buyer only need to pay the actual maintenance cost.

5. Certificate support: CE, FDA, SGS.

Additional resources:
All Vinyl Cutters - Shop Quality Cutters & Plotters - HeatPressNation

New Hope Laser are exported all over the world and different industries with quality first. Our belief is to provide our customers with more and better high value-added products. Let's create a better future together.

If you have an idea to get a free quotation of CNC metal tube cutting machine, please answer the questions as following and tell us by , so that we can recommend the most suitable laser machine and quota the affordable price to you directly.

1. Do you need to cut metal sheets/plates, metal pipes/tubes only or both?

2. If need to cut tubes, What is your tube length, diameter and max thickness?

3. For cutting metal sheet, what is the max working area required?

4. After processed, what the materials will be used for? (Applications)

5. Which seaport is the nearest to you?

6. Do you have any experience in the CNC laser metal tube cutting system?

7. What is your online chat way? Such as Skype and .

8. Are you an end user or reseller?

It is strongly recommended before you make the decision to purchase any pipe and riser system you identify your individual requirements. This will help guide your decision in relation to the type of equipment you purchase.

Installation of this type of equipment is a significant business decision and growers are encouraged to do a financial assessment that appropriately considers the investment. This should consider:

• cash flow impacts
• capital expenditure versus operation and maintenance
• payback period
• tax implications
• benefits (productivity and labour) of the investment.

It is important you seriously consider the alternatives such as earthen channels.

Given the appropriate soil conditions, design, construction, operation and maintenance, channel systems can be cost effective and efficient. Talk to an irrigation surveyor and designer to ensure a pipe and riser system is right for your particular situation.

Once you are certain a pipe and riser system is what you want or need, consider the following.

Flow rate (or discharge)

What flow rate do you want or need? Generally the response is in the range of 12–20 ML per day. The answer to this helps to determine the diameter of pipe required and the likely pump specifications.

You should seek advice from an irrigation surveyor and designer to ensure the flow rate meets the requirements of the farm's physical characteristics and/or the crop being grown.

It is important the flow rate matches the crop's requirement, that is, it adequately fills the root zone. Too small a flow rate may mean water ponds too long pushing past the root zone and contributing to deep drainage. Too large a flow rate may result in water not infiltrating deep enough to satisfy the crop being grown resulting in lost production.

You should do a Whole Farm Plan (WFP) (or modify their existing one) to reflect the pipe and riser system design. This will ensure the system is compatible with the proposed layout as detailed on the WFP and considers future expansion.

Length, shape or layout of the pipeline

The answer to this will help determine the diameter of pipe required and the likely pump specifications. In addition you might want to install a system on part of the farm and expand the system later. This needs to be considered now. If expansion is not considered initially and you want to do it later the system will be too small and require significant modification, or even a complete new system.

It is not common for systems to be a simple straight length of pipe, they often have pipe teeing off and may be looped to satisfy the physical layout of the property. This will influence the pipe size and pump specifications and highlights the importance of proper design and consideration of all options during the design phase.

How many bays to irrigate at the one time

Suppliers suggest ideally one bay at a time should be irrigated to ensure a cost effective system that meets the requirements of the crop being grown.

The more bays you want to irrigate at once the greater the demand on the system so the pipe and pump specifications will need to be altered. It will impact on the flow rate and the ability of the system to deliver the correct application rate to satisfy the crop being grown without losing water from the production system, (deep drainage beneath the active root zone). It is also difficult to deliver the same flow rate out of two risers at the same time which could lead to inefficient irrigation on one or both bays.

If automation is something you are considering, remember it is easier to automate irrigation if one bay is irrigated at a time.

Once these  considerations are known, the supplier or designer is able to determine the pipe size required to deliver the required flow rate.

Ongoing operation cost per ML

This is one of the most important considerations you will need to make. A relationship exists between pipe size, pump efficiency, head loss  and energy costs that will impact on the cost to pump a ML of water for the life of the system. If you get this wrong, the overall cost (capital expenditure plus operation and maintenance) will be significantly higher than it needs to be.

You should always aim to design a system that delivers the required flow whilst minimising energy requirements. This ensures the system remains as economically efficient as possible for the life of the equipment.

Using a gravity system

Gravity systems can be installed (a system that does not require a pump) but significant head is required that is rarely obtainable in northern Victoria. The head required would need to be greater than approximately 1 metre for these systems to adequately meet irrigation requirements.

If you have suitable head then this option should be discussed with your irrigation surveyor and designer or pipe supplier.

Determining pump efficiency

Pump efficiency is a complex relationship that will vary due to a range of factors including:

• impeller/pump design and type
• impeller diameter
• total head
• speed and flow rate.

All reputable suppliers will have curves that demonstrate their pump efficiencies. It is important you ask to see these and understand them so you can determine which pump provides the flow rate you require at the highest possible efficiency.

The higher the efficiency the more water it will move per watt of energy.

Also consider the efficiency of the pump across the full range of the system – that is, how it performs at the closest, furthest and all risers in between.

Head loss

Head loss is the total hydraulic resistance against which the pump must operate (friction). It means the effort required to push water through the pipe and deliver the required flow rate at the furthest outlet/riser. It is described as metres of head at the pump. The simplest way to reduce the head loss is to increase the pipe size.

The aim is to design a system that results in a head loss of between 5 and 10 metres.

Often smaller pipes are installed to reduce the capital cost. This decision creates a higher head which is overcome by upgrading the pump/motor set. However, the higher the head the higher the pressure required to deliver the flow rate. This may result in problems with leaks, especially around closed risers, and will result in higher pumping/energy costs.

Level of flexibility required to be built into the system

Flexibility should always be a consideration in the design phase, such as:

• variable speed drives
• expansion at a later date
• increased flow rate
• automation.

This is best done as a component of a WFP. A number of designs should be done to show the full range of flow rates for various options. If the limits are pushed there is very limited flexibility once the system has been installed.

It is critical at the start of the process irrigators seriously consider what they want to have in the long run. It is costly to make changes once the system is in the ground. This includes simple things like retro-fitting automation. In many instances this cannot be done without major modifications if the system has been installed without prior planning.

Pipe and riser systems provide irrigators with greater flexibility in which bays get irrigated. A single bay can be irrigated one day and another on the opposite side of the system or farm can be irrigated straight afterwards. Traditional channel systems are less flexible as groups of bays often need to be irrigated one after the other to take advantage of the channel being filled.

Looped system

Normally a single pipe leaves the pump and moves through the property to deliver water out of the risers to the irrigation bays. A looped system has two pipes that are joined somewhere on the property to form a "loop".

Looped systems are used to reduce the size of pipe required to deliver the necessary flow rate. It is important bays can be irrigated on all lengths of the system to avoid dead lengths of pipe. These systems are able to deliver the required flow rate at all spots along the pipeline.

It is not possible to install looped systems in stages, they need to be fully installed. Keep this in mind if you are considering staging installation over time.

Capital expenditure versus operation and maintenance

It is possible to reduce capital expenditure by using a smaller pipe and increasing the size of the pump/motor set required to deliver the desired flow rate. For example, to increase the pump/motor size on a pump may cost $ (subject to power requirements and pump specifications) while , to increase the pipe size from 355mm to 400mm may cost $10,000 for approximately 1km of pipe. This needs to be given careful consideration because operation and maintenance costs will be greater. Also future expansion and system flexibility will be limited if the pipe is too small.

If the volume of water being pumped through the system each year is relatively small, additional consideration may be warranted. Some people will argue you can compromise on some of the other factors such as the pump/motor set if this is considered against the capital cost over the life of the project. The reduction in capital cost may mean additional pumping cost per megalitre results in a net benefit across the life of the system.

Velocity

Ask what velocity the system is designed to operate at. If it is greater than 2 metres per second (2 m/s) you need to understand why, as it may be uneconomic long term due to higher operating and maintenance costs.

Diesel or electric motor

Often there is no choice because it is too costly to connect power but if you have an option, there are some subjective and economic considerations. To help make this decision ask your designer to provide an estimate of the pumping costs for both options and what the capital costs would be. Depending on the volume of water you plan to pump each year it may be attractive to install a diesel motor. Also consider such things as:

• refuelling diesels
• bunding around fuel tanks
• automation
• safety
• greenhouse impacts
• operating life and general maintenance requirements.

Riser size

Consideration should be given to the size of risers you would like to install. For example a 450mm pipe should have a 400mm riser.

Installing smaller risers will result in increased operation and maintenance costs because of head loss and problems associated with wash when water is delivered onto the bay.

Install as big a riser as possible to help alleviate these problems but remember ease of construction will affect cost.

It is harder to install a riser the same size as the pipe than one that is a size smaller than the pipe.

Variable speed drives (VSDs)

VSDs provide growers with flexibility and reduced energy consumption. They are an electronic device that allows the speed of the motor to be accurately controlled meaning growers can speed up or slow down the application of water from the pump/motor set. They allow the grower to control the flow rate at any point in the system.

Shrouds

Are often used on risers to ensure they can be opened and closed without the operator getting wet. This can increase wash as the water is directed to a smaller area (more energy on a smaller footprint).

Suction pipe

Suction side of the pump needs to be considered especially if there is some distance between the pump and the supply point. It is possible that on start up the pipe may collapse. This weakens the wall and can only be fixed by removing the damaged section of pipe.

To prevent this, heavy walled pipe should be installed and/or a pump pit or a mechanism to allow the pump to be started at lower speeds.

Flooded supplies

Conversely flooded supplies (where the water level on the supply side of the pump is higher than the pump) may need additional engineering solutions to protect the equipment. For example, a surge tank may be required when shutting down the system to deal with the energy of the water in the suction pipe.

Pipe joins and welds

Some companies identify each weld with a stamp ensuring welds are completed by certified technicians to Australian Standards.

Ensure your supplier meets this standard and ask to see their technician's qualifications. Adhering to correct procedures that are to the Australian Standard will ensure welds are as strong as possible prolonging the life of the system.

Other sources of water

Dairy effluent can be pumped through these systems and this will be of benefit to some irrigators. Similarly other supplies such as groundwater may be pumped through the system. These alternative sources of water may be harsher on the system and appropriate shandying and engineering solutions should be employed to minimise any impacts.

Reuse and channel connections

Reuse and channel connections may require a one way valve to prevent the channel being emptied to the reuse and vice versa. This might be especially important if you are using effluent through the system.

Trenching and backfilling

You should consider trenching and backfilling during the installation of the system. It is best if this is done to a specified standard which is agreed up front, so problems associated with poor backfill material is eliminated.

Some pipe supply companies prefer pump and excavation work is considered and contracted separately to the pipeline. This ensures growers have a relationship with the pump supplier and excavation company so they get expert advice and have someone to go to if they have problems relating to these specific aspects.

Opening and shutting risers

There are two ways a riser can be open and shut – manual or automatic. A range of options exist within these categories and these include:

If you want to learn more, please visit our website pipe automatic feeding device.