Affordable, Effective and versatile CNC Router.

Affordable, Effective and Versatile CNC Router for Plastics, Wood, Signmaking, Foam and Fabrication

Techno's HD series CNC Router provides an affordable routing solution to the plastics industry with plastics industry with model available in (3) different standard sizes: 4ft x 4ft, 4ft x 8ft, and 5ftx10ft, or any special sizze upon request. The HD machine comes equipped with a 4 HP HSD high frequncy collet spindle, 4-zone vacuum table, 9HP Becker rotary vane vacuum pump, and an automatic tool calibration pad. Key Features are all steel construction providing a stable foundation for the router resulting in superior cut quality and edge finish. In addition, the machine includes helical rack-n-pinion drives on the X and Y axis, a ball screw on the Z axis an easy-to-use hand held control pendant, and a vacuum hood designed with concentrated flow at the spindle tool making it vvery effective in cleaning up the chips as it routers.

Techno's HD CNC Router is versatile tool servicing the plastics, woodworking, signmaking, foam and the general fabrication industry, and the HD machine's open architecture works with all industry standard CAD/CAM software.

Contact Techno's sales application engineers today at 631-648-7481 to learn more about how the HD CNC router can benefit your business and product Quality, or fill out the convenient online form for a free quote. Additionally, you can visit Techn's website at www.technocnc.com to see their full range of cnc equipment and videos showcasing the high performance and quality machinery in action.

Servomotor V/s Stepper motor

Servomotor

A servomotor is a rotary actuator or linear actuator that allows for precise control of angular or linear postion, velocity and acceleration.it consists of a suitable motor coupled to a sensor for position feedback. It also requires a relatively sophisticated controller, often a dedicated module designed specifically for use with servomotors.

servomotors are not a specific class of motor although the term servomotor is often used to refer to a motor suitable for use in a closed-loop control system.

Servomotors are used in appliaction such as robotics, CNC machinery or automated manufacturing.

A stepper motor or step motor or stepping motor is a brushless DC electric motor that divides a full rotation into a number of equal steps. The motor's postion can  then be commanded to move and hold at one of these steps without any feedback sensor (an open-loop controller), as long as the motor are very large stepping motors with a reduced pole count and generally are closed-loop commutated.

Advantages

1.Low Cost for control archieved 2.high torque at startup and low speeds 3.Ruggedness 4.simplicity of constrution 5.can operate in an open loop control system 6.low maintenance 7.less likely to stall or slip 8.Will work in any enviroment 9.Can be used in robotics in a wide scale.

Disadvantages

1.Require a dedicated control circuit 2.Use more current then D.C Motors 3.Torque Reduces at higher speeds

Servomotors Vs. Stepper Motors

A servomotor consumes power as it rotates to the commanded position but then tthe servomotor rests. Stepper motors run warm to the touch because they continue to consume power to lock in and hold the commanded position.

servomotors are generally used as a high performance alternative to the stepper motor. Stepper motors have some inherent ability to control position, as they have built-in output steps. This often allows them to be used as an open-loop postion control, without any feedback encoder, as they drive signal specifies the number of steps of movement to rotate, but for this the contorller needs to 'know' the position of the stepper motor on power up. therefore, on first power up, the controller will have to activatte the stepper motor an dturn it to a known position, e.g. until it activates an end limit switch. This can be observed when switching on an inkjet printer: the controller will move the ink jet carrier to the extreme left and right to eastablish the end positions. A servomotor will immediately turn to whatever angle the controller instructs it to, regardless of the initial position at power up.

The lack of feedback of a stepper motor limits its performance, as the stepper motor can only drive a load that is well within its capacity, otherwise missed steps under load may lead to positioning errors and the system may have to be restarted or recalibrated. The encoder and contoller of a servomotor are an additional cost, but they optimise the perfformance of the overall system (for all of speed , power and acuracy) relative to the capacity of the basic motor. with larger systems, where a powerful motor represents an increasing proportion of the system cost, servomotors have the advantage.

There has been increasing popularity in closed loop stepper motors in recent years.They act like servomotors but have some differences in thier software contol to get smooth motion. the top 3 manufacturers of closed loop stepper motor system employ magnetic encoders as their feedback device of choice due to low cost, and resistance to vibration the main benefit of aa closed loop stepper motor is the cost to performance ratio. There is also noo need to turn the PID contorller on a closed loop stepper system saving time

Many application, such as laser cutting machines, may be offered in two ranges the low-priced range useing stepper motors and the high-performance range using servomotors.

Control

Most modern servomotors are designed and supplied around a dedicated controller module from the same manufacturer. Controllers may also be developed around Microcontollers in order to reduce cost for large volume applications.  

www.subauae.com

We also supply Triple Axes CNC Router which is able to cut various materials with great efficiency and speed including wood, plastic, foam, veneers and Aluminium etc. This CNC Router is also perfect for Three Dimensional Engraving with high deg. of accuracy on Marble, Granite, Sandstone, Artificial Stone, Aluminium, Brass, Copper, Bronze, Mild Steel, SS, wood, plastic, foam and veneers etc.

Glass Tempering Plant We are engaged since 18 years in the installation, operation and maintenance of CNC machines and computerized horizontal glass tempering plants as well as setting up of new Glass Processing Units and Tempering Furnaces. We provide satisfactory professional services for factory layout designing, machinery purchasing & installation, appropriate manpower. We also provide world class global maintenance service at very low & competitive cost.

CNC Glass Cutting M/C We are certified and authorized installation and Service Co-operator for an Italian CNC machine manufacturing group CMS SPA and we have ample experience of installation, operation and maintenance in India and abroad.

CNC Router This CNC Router is very useful and applicable for producing decorated and designer wooden doors, cabinet doors and furniture, sign making, acrylic cutting, model making.

It is fully capable of doing 3-D engraving on marble and stones with quality at par with European machines.

The USP of this machine is its LOW COST with high efficiency and work quality. Satisfaction guaranteed with all spares availability and global after sales service which is our USP. We already have installed 11 CNC Router cutting and engraving machines in India only just because of the sturdiness and the reliability of the machine along with the unmatched quality of producing accurately cut and beautifully carved material at a very fast speed.

Vacuum Membrane Press This machine is used for applying a uniform layer of lamination of PVC, decorative papers, and veneers up to 0.4mm on top surface & borders of flat and designed work piece having smooth shape. It’s capable of laminating PVC foil on one side of MDF, particle board & solid wood. Vacuum abnormity wrapping technology.

Source: me

pages source:http://goo.gl/1SSCaS

website;www.subauae.com

Post by: Irfan khan

“What if you could cut a piece of wood in half by drawing a line on it?”, Glowforge Founder and CEO Dan Shapiro asks in his interview with Tested. That’s the elevator pitch for his company’s eponymous machine: A nearly idiot proof CNC laser cutter and engraver. If you know how to use a pencil and a smartphone, then you know how to operate Glowforge.

Glowforge uses a 40W carbon dioxide laser to engrave and cut (and someday even carve) a variety of materials, from acrylic to chocolate. But you already knew that. What Glowforge does differently is its vision-based and cloud-powered software. All you have to do is use a web app to drag-and-drop your design(s) over an image of your material(s) as they sit on the machine’s 12″x 20″ work area.

You can choose from material-based presets for the laser’s settings or input and save your own. And yes, Glowforge also has a trace mode where instead of using a template file, you’ll just sketch on the material itself and Glowforge will cut over the sketch.

Glowforge works with a variety of image files and software, including AutoCAD, Inkscape, Illustrator and PhotoShop. To sustain its user-friendly approach, Glowforge will also set up an online marketplace where you can download both free and paid templates and instructions for making a variety of objects.

We also supply Triple Axes CNC Router which is able to cut various materials with great efficiency and speed including wood, plastic, foam, veneers and Aluminium etc. This CNC Router is also perfect for Three Dimensional Engraving with high deg. of accuracy on Marble, Granite, Sandstone, Artificial Stone, Aluminium, Brass, Copper, Bronze, Mild Steel, SS, wood, plastic, foam and veneers etc.

Glass Tempering Plant We are engaged since 18 years in the installation, operation and maintenance of CNC machines and computerized horizontal glass tempering plants as well as setting up of new Glass Processing Units and Tempering Furnaces. We provide satisfactory professional services for factory layout designing, machinery purchasing & installation, appropriate manpower. We also provide world class global maintenance service at very low & competitive cost.

CNC Glass Cutting M/C We are certified and authorized installation and Service Co-operator for an Italian CNC machine manufacturing group CMS SPA and we have ample experience of installation, operation and maintenance in India and abroad.

CNC Router This CNC Router is very useful and applicable for producing decorated and designer wooden doors, cabinet doors and furniture, sign making, acrylic cutting, model making.

It is fully capable of doing 3-D engraving on marble and stones with quality at par with European machines.

The USP of this machine is its LOW COST with high efficiency and work quality. Satisfaction guaranteed with all spares availability and global after sales service which is our USP. We already have installed 11 CNC Router cutting and engraving machines in India only just because of the sturdiness and the reliability of the machine along with the unmatched quality of producing accurately cut and beautifully carved material at a very fast speed.

Vacuum Membrane Press This machine is used for applying a uniform layer of lamination of PVC, decorative papers, and veneers up to 0.4mm on top surface & borders of flat and designed work piece having smooth shape. It’s capable of laminating PVC foil on one side of MDF, particle board & solid wood. Vacuum abnormity wrapping technology.

Source: me

pages source:http://goo.gl/1SSCaS

website;www.subauae.com

Post by: Irfan khan

One of the common themes that we are starting to see more and more of from the maker community is the release of 3D printers which are capable of more than just 3D printing. Companies are beginning to realize that most people who are interested in 3D printing technology are also interested in other means of fabricating and ‘making’. Because of this, we have seen multipurpose fabrication machines come about, capable of laser engraving, CNC milling, and 3D scanning on top of being able to 3D print objects as well. Today, a Wuhan, China-based company, called EasyArts has launched an Indiegogo campaign for a machine they call the Ares.

One of the common themes that we are starting to see more and more of from the maker community is the release of 3D printers which are capable of more than just 3D printing. Companies are beginning to realize that most people who are interested in 3D printing technology are also interested in other means of fabricating and ‘making’. Because of this, we have seen multipurpose fabrication machines come about, capable of laser engraving, CNC milling, and 3D scanning on top of being able to 3D print objects as well. Today, a Wuhan, China-based company, called EasyArts has launched an Indiegogo campaign for a machine they call the Ares.

The Ares 3D printer is constructed with a full-metal body, with over 90% of the load-bearing parts being made of metal and processed via CNC machining. With driver belts constructed of polyurethane and steel wire, the possibility of deformation is virtually eliminated. The modular design of the Ares allows for quick and easy switching of the various tool-heads, while also allowing for users to design their own tool-heads for the machine.

The Ares is a delta-style machine which can create PLA 3D printed objects with ease. The CNC mill consists of various sized cutting tools for use on different materials. The 3D scanner portion of the Ares is capable of scanning objects in 360 degrees, allowing users to virtually copy any 3-dimensional object that they can fit onto the scanner bed.

Another great feature with the Ares, since it is constructed using a Raspberry Pi as its processing unit, is that it fully Wi-Fi-enabled. Users can scan, print, and operate the machine wirelessly via smartphone, tablet, or laptop and keep track of what is going on when they are at a completely different location.

Probably the most significant and potentially beneficial feature of the Ares is that it is entirely open source, meaning other people can create additional tool-heads and share them with the rest of the Ares community.

“All of our designs and developments are based on open source firmware and software,” EasyArts explains. “As we all know, good quality is the precondition of extension. So we are trying our best to make sure Ares is competent for extension. Not only that, you are greatly encouraged to develop your own modules by following our instructions. The standard of your connector or adapter has been defined in the user manual, so that your own design can match the switchable platform. As long as following this rule, chocolate printing, circuit board, any feasible extension is possible.”

As for the specifications of this new machine, they are as follows:

3D printer print volume: 190 mm diameter x 210 mm height 3D printer nozzle diameter: 0.3/0.4mm 3D printer layer thickness: 0.05-0.3mm 3D printer positioning precision: 0.02mm (X, Y, Z) 3D scanning resolution: 0.3mm 3D scanning speed: 12 min (depending on resolution required) 3D scanning color mode; 16 bit color 3D scanning laser power: 5 mW (each) Laser engraving wave length: 405 nm Laser engraving travel speed: 200mm/s Laser engraving material capabilities: wood, plastic, and paper Laser engraver beam diameter: 0.4mm CNC milling power: approximately 6W CNC rotating speed: 4000r/minute CNC cutter diameter: 0.3-4mm CNC travel speed: 200mm/s CNC material capabilities: wood, cystosepiment, gypsum

If all goes as planned, EasyArts hopes to have the Ares ready for shipment in October. Currently they are only looking to raise a minimum of $8,000, so we fully expect this to be a successful crowdfunding campaign.

Have you backed the Ares? We’d love to hear from you. Discuss this new all-in-one 3D printer on the EasyArts Ares forum thread on 3DPB.com. Check out the video below showing the Ares.

http://goo.gl/wrgB7N

The next time you admire someone’s fashionable wood- framed sunglasses, you may be looking at a pair of stylish peeper enhancers created by teacher Mark Smith’s Industrial Technology class at Morris Community High School in Morris, Illinois.  Located at the suburban edge of Chicago, Morris High attracts students looking to enter the area’s booming manufacturing job market, with many planning to continue their career pursuits at a community or four-year college.  Of the sixty or so students enrolled in Industrial Technology, thirty are in Smith’s woodworking-oriented computer integrated advanced manufacturing program.  His classroom shop has a full complement of hand and machine tools.

Mark Smith is uniquely qualified for his position at Morris, currently completing his third year there.  Previously, he taught advanced wood manufacturing at Shiloh High School in Hume, Illinois, then spent two years managing a CNC and Shaper department in the wood products industry.  He is also Adjunct Professor of CADD (Computer Aided Design and Drafting) in the Technical Department at Joliet Junior College, the oldest public junior college in America.  He brings to his classes both academic experience and the hands-on knowledge of the ins-and-outs of today’s advanced manufacturing workplace.

Students begin the program with a course entitled Orientation to Technology.  Here, they are given their first taste of everything the Morris Industrial Technology/Pre-Engineering program has to offer.  They begin developing skills in record keeping, safety, material selection and handling, precision measurement, problem solving, computer design, prototyping and finishing processes.  They are given exposure to software programs like Mastercam® (CNC Software, Inc., Tolland, CT) and learn to use manual equipment as well as advanced CNC equipment.  Students, usually freshmen or sophomores, are given a footstool project to gain practical experience.  After cutting out the parts using manual equipment, they bring them to a Laguna CNC router to achieve the final machining.  Using Mastercam to program the toolpaths for one of the twenty designs available to them for the top of the footstool, they watch the router automatically bring the design into reality, whetting their appetites for more complex projects like the long board project where they create their own design.

Once the students have become comfortable with the basics, they move on to the CADD course where they become familiar with various utilities and learn how to create designs with modern CAD software.  The next step is the Manufacturing 1 class where the students use hand tools and small power tools to create an acoustic guitar.  Also covered in the classes are the general concepts and programming procedures using G- and M-codes and students get hands-on experience setting up the router.  Stressing the ability to apply math, science and design concepts to complex problems, according to the Morris syllabus the classes are designed to prepare students for the world of work, advancement to a local community college, or a four-year university under the umbrella of engineering and manufacturing.  “One of the more interesting projects a student tackled at this stage,” says Smith, “is a flat-pack bed frame.  A series of slats force the sides out wider and wider to become a rigid frame for a single bed.  It’s designed to pack flat, hence the name, and no tools are required to put it together or take it apart.  The frame is created as a solid first, to get all the geometry correct.  Then, the toolpaths are programmed in Mastercam.  A special 3D fixture is also created to hold the sides in a curved position for CNC machining on the router.”

Mastercam programming software for the router includes everything needed for students to rough and finish machine their projects, including contouring, drilling and pocketing.  Students can choose multiple roughing and finishing passes and multiple depth cuts for any contour and can easily machine 2D and 3D contours including parametric splines.  In drilling operations, the software lets students automatically identify and pre-drill multiple operations at their plunge points, while the auto drilling feature lets them create complete cycles of drilling operations on sets of holes, even with different diameters.  “Mastercam software gives our students an extensive range of capabilities with the router,” says Smith, “resulting in a beautiful finish to their projects and boosting their sense of accomplishment.”  Students can create contours, pocket walls, and pocket islands, including islands of different heights, while smart pocket depth control for thin-walled pockets lets them machine depths without retracting, or machine all cuts in a single area before moving to the next.  The Dynamic Milling feature creates an active toolpath that delivers more consistent cutting conditions and allows the use of the entire tool flute.

Continuing on to their Manufacturing 2 courses, students develop additional skills in business fundamentals, teamwork, leadership, marketing, planning, organizing and decision making while they gain knowledge in methods of joiner operations, finishing, and the selection and installation of hardware.  Students design, problem solve, prototype and produce an advanced product on the CNC router.  “Projects in this phase of their course of study include entertainment centers for flat-screen TVs,” says Smith.  “They do all the creation of additional design work and programming in Mastercam.

In Production1 and 2 classes, students learn the concepts of corporate structure, research and development, just-in-time (JIT) mass customization, and servicing.  They also expand their portfolio of work with a variety of projects.  “We are very fortunate to have a great deal of interest and support from various manufacturing companies in the community,” says Smith.  “For example, Laguna Tools donated the CNC router, and we continue to receive tooling, materials, adhesives, hardware, and finishes that allow for expanding the scope of projects.  Each year, Taylor Guitars® has given us about $25,000 worth of guitar parts and rough lumber and the students have produced some one hundred fifty acoustic guitars in the past three years.  They look and sound like professional guitars you would buy in a music store and the level of pride the students feel when they take their guitar home is ‘off the charts’.  The parts are considered ‘irregular’ by Taylor standards, but I have trouble finding irregularities and the students can never find them.  Remember, premium guitars from Taylor can run as high as $15,000.  All we have to provide are some materials such as sandpaper, glue and finishes.  Everything else comes from Taylor.  The guitars are being added to the CNC program so we’ll be able to use Mastercam to program the toolpaths for creating the rounded necks with the Laguna router.”

Now, about those wood sunglass frames.  While Mark Smith was at Shiloh, he was approached by iWood Eco Design® of Louisville, Kentucky, to help them develop their wood-based sunglass frame line.  Smith and his students started the venture with aircraft-quality quarter-inch reclaimed panel product, supplied by iWood Eco Design, that comes from luxury business jets and features exotic veneers such as ebony, teakwood, bamboo, and zebrawood.  With toolpaths for various designs programmed with Mastercam, the selected wood is cut out and edged on a CNC router, steamed to make it pliable, and formed using wooden molds made in the class.  When dry, the frames are sanded and finished.  “iWood Eco Design has now come here to Morris,” says Smith, “and asked that I continue the line with my students.  They brought to Morris all their molds, materials, tooling, and equipment that had been at Shiloh.  The students will be expanding the line with new designs, even some wood temples to offer choices beyond their imported Italian metal temples.”

In addition to supplying the wood, iWood Eco Design provides a stipend to the school for each pair of sunglasses made.  Using this stipend, students can take the frames home to complete the sanding, providing them with substantial after school earning-while-learning income.  After finishing, the frames are sent to Louisville to be fitted with optical-quality Carl Zeiss® lenses.  “These iWood Eco Design sunglasses have become pretty famous,” says Smith, “with owners ranging from Bono to Oprah.  Even New York models wear them on the runway.  You can imagine how excited the students are to be involved in this creative process.”

Morris High students in their junior and senior years are being offered internships with local manufacturing businesses.  “There are hundreds of companies in the Chicago area looking for qualified employees,” says Smith.  “Most are using Mastercam for programming the CNC equipment on their shop floors.  They are having difficulty in finding people with the programming and CNC operating skills needed to be competitive.  At Morris, we’re developing the talented people to help fill those positions, as well as providing a good foundation for those planning to continue their education at the college and university levels.”

At Morris Community High School, the “eyes” have it, as do the skilled hands and sharpened minds!

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Website: www.Subauae.com

Post By: Irfan Khan.

Northype has introduced a new all in one 3D printer, laser cutter/engraver and CNC milling machine they have created, that will soon be launched over on the Kickstarter crowdfunding website.

The hybrid 3D printer has been named Adam and will be priced competitively for early bird backers at jest €899 or slightly over $1000. The Adam system will come provided with a complimentary 500g spool of PLA printing filament created by TreeD filaments.

Northype created the new desktop manufacturing system to provide high quality functionality that allow makers, creators and developers to benefit from a variety of different manufacturing techniques all from one small desktop machine.

The 3D printing side of the system features a 0.4 mm nozzle that is capable of using 1.75mm filaments and is also equipped with a high quality milling tool head and laser module that can be interchanged as necessary.

As more information becomes available once the system is available to back over on the Kick starter crowdfunding website we will keep you up-to-date as always.

Source: 3DP

Website : www.subauae.com

Post by: Irfan khan

CNC Routers And CNC Laser Machine

Cutter Equipment the trend of rigid Substrate, has become a reality, more print shops have made every effort to meet this market needs. we have cutter equipment for all kind of rigid materials: Acrylics cutters, corrugated cardboard cutters, cardboard cutters, honeycomb cutters, cardboard cutters vinyl cutter, banner cutters among others laser cutters, flatbed cutters cnc Routers , Vinyl Plotters, textile cutters and engraving machines are part of our portfolio.

power, Robust, heavy Duty, Strong are synonymous of our great cnc router. A good cnc router must have a strong vacuum pump and understroyed spindle motor, that is our Clever CNC have, Becker Vacuum Pump and HSD spindle motor, Guarantee performance and durability. when you need to cut or route wood, aluminum, MDF, ACP, Clever CNC router is your best option. our customer are taking advantage of rigid material trend, making restaurant decorations, trade show booths, POP Displays, cabinet door cutting, wooden door cutting, wood furniture, windows, tables and chairs, and much more, cutting and routing with our CNC Equipment.

Our line of laser cutters are the ideal tool to make POP Gifts, Corporative signs, all types of acrylic signage. our clever laser cutter and engraving has the best relationship between price and value of the market. Powerful CO2 laser tube combined with a state of the art design, make our laser the best choice of the laser cutter in town. Acrylic, Wood, Leather and more materials can be cut or engrave in these machine.

All kinds. depends on type, application, required tooling, footprint, costs finish/tolerances, industry, MTBF/lifetime.

Dc stepper motors prevail in small-footprint/benchtop soft material CNCs for axial positioning while AC motors with VFD are used for spindles. for the room- size, million Doller shop floor CNCs you will find a combination of high torque AC machines along with BLDCs for tool camera/tool changer/coolant flow positioning actuators. all industrial CNC motors use feedback-so the motors get categorized as servomotors. many of the 12DOF and greater machines use additional motors for work piece positioning- depending on capacity, those could use DC or AC. Almost no one (except hobby grade) uses DC steppers without any feedback. the next generation machines are likely to use elastic actuation/tool temperature feedback techniques to sense compliance in work piece/tool fixture or work in unprotected locations for completely automated controls ( no need to muk around with feed/speed RPMs)

pages source:http://goo.gl/2PeUts

Website: www.subauae.com

Post By: Irfan Khan

LANSING, MI - Makers of what they say is the first large format, mobile CO² laser engraving/cutting machine – AP Lazer – expect this woodworking machine to gain recognition as "the next big thing, even bigger than 3D printing," in a wide range of industries.

AP Lazer introduced its large-format gantry-style laser engraver earlier this year. Unlike laser cutters in traditional laser machines, which are contained in a box, and limited to engraving small, light, flat materials, AP Lazer's CO² cutter is mounted on a gantry like a big CNC cutter. Though the gantry-style approach was invented 30 years ago, "they are so heavy and expensive that marking on surfaces such as floors, walls, tables, and chairs is impractical," says the company.

By developing a convertible z-axis table, AP Lazer says it was able to build is the first laser machine capable of doing everything a traditional  enclosed laser machine can do. But when the z-table is removed, it makes engraving large and heavy objects possible.

AP Lazer has developed a version of its machine for the funeral industry, and at a tradeshow in May did a presentation showing its use for decorating completed coffins as well as memorial tablets and urns.

machine allows users to engrave large and bulky items, such as interior and exterior orations, furniture, shoes and blue jeans; to smaller products and personalized gifts, including trophies, sporting goods, guns, jewelry, coffee mugs, frames and so much more.

The company estimates the marking industry is a $50 billion dollar market served by enclosed laser machines that engrave small items such as gifts, trophies and small signage. The ability to engrave large format, heavy objects will open up a wide range of new markets, says AP Lazer, since the gantry style machine has no weight and size limitation.

It also gives the potential for open architectural design to engrave on installed surfaces. The top of the laser machine can also be removed and placed directly on a surface such as wood or stone flooring or a large tabletop.

AP Lazer has been used to mark 3000 lb. granite monuments, and "woodworkers are able to engrave virtually every wood surface. And in the auto industry manufacturers are marking, branding, and customizing engine covers and auto parts," AP Laser says.

The lazer technology can also be integrated into a process mannufacturing line. "When placed over an existing conveyer system, parts no longer have to be manually moved off production lines or in and out of a box," says AP Lazer.  

While a recent study finds that by 2018, the world wide 3D printing market will total $13 billion, including printers, end product and material/consumable sales. Th small product engraving market greatly exceeds that already, says AP Lazer. "Exactly how big the market size is for engraving large, heavy objects is not known. The market is fresh and ready for exploration."

Automatic and Spraying Turn Machine

 SUBA-FP2400 spraying machine (wooden door special)

Performance Features.

Automatic positioning device to facilitate the production.

operator only two general workers, 70 to 100 square meters per hour, can be sprayed.

computer precise control of the gin movement lines, spray evenly, saving paint;

the man with the gun is completely isolated, effectively protect the health of emplyees;

unique design, so that the gun can be a multi-angle activities,a variety of side, arc shaped surface can be easily spray;

machine standard with two guns and can hold up to four gun.

NOTE: can produce customized product as  your requirment.

Model and Specification

MODEL :                     5mx1.2mx0.4

Spraying gun speed: 0-100m/min

Total power:               4kw

Air pressure:6mpa

paint type:                  PE,PU,NC,UV,AC Water based lacquer

Overall size:2mx2.5mx2.5m

For More Details Connect Suba Techwith your Company.

Story

This is an old area of manufacture, but I have done a bit of R & D and Prototyping on this exact steel Milled and Stamped steel firearm parts issue over a very long time. This is an area of my expertise. A lot of MY time and a lot of YOUR money. Tax money. The proper and correct answer is not easily and quickly explained. At least I can’t nor will. This is a Life AND Death issue. This is the base issue. Life and Death. Perhaps yours. In War…In Your

Home.

In War…your life or your adversaries life. Based on the mass produced Stamped steel arms vs. Milled steel arms. I am not talking sporting arms here. Tools of War. The choice of no arms or a few good arms or lots of so, so arms. From WW-2 on. Today. If you were faced with this issue…how would you choose? Your son? Your brother? Do you get my point?

In these times

CAD/CAM and NC/CNC has changed the Equation. Dramatically. Milled Steel and/or Stamped Steel and the Correct Application of these manufacturing methods is almost Moot. For Tools of War. Almost…not completely. There are several other ways to make Steel arms parts…not just Milling and Stamping. Good ones. And less expensive. And much quicker. The Stamping method of arms manufacture is over 70+ years Old! The Milling method of arms manufacture is hundreds of years Old! Did Automobile and Aeroplane manufacturing change much in the last 70+ years? A hundred years? I thought so. Sporting/Custom arms are another matter. For another time.

My Patent Simple Answer is in two parts.

WHY, and HOW. The WHY is cost, primarily, but not just cost. Ease of quantity production and the use of simple manufacturing tools and unskilled and/or semi-skilled labour. If you are planning to go to War or Respond to a War, you need Huge amounts of these items. And darn quickly too! WW-2. remember? Me too. Grandparents do. Not me. WW-2. WHY. This is How Stamping came to be. Lots of unskilled/semi-skilled labour and a bit of Expensive and Fancy Tooling. Mostly during the second great war. Unskilled and/or Semi-skilled labour to produce the stamped parts. Lot and lots of parts. For Tools of War. Your Grandfather. Your Grandmother. Remember? WW-2.

Extremely Highly Skilled Tool & Die Makers were required to Make and Maintain this Tooling. Milled parts were still necessary, but in quite small quantities compared to the original designs of almost all Milled Steel firearm parts. Quality vs. Quantity. Excellent vs. Inexpensive. Life vs. Death.

HOW. In most original firearm designs, the critical parts are of Milled Steel. At least from the Design, Engineering, R & D, Prototype, test/retest and initial production runs. Milled steel parts require Expensive Machine Tools and Highly Skilled Machinists. Quality and Quantity will Butt Heads. Ask any Production/Process Engineer. Per unit Milling time is much longer by several multiples compared to Stamping. Milling costs are incredibly high compared to stamping. RELIABILITY is HIGHER. High Reliability = high cost. PERIOD.

Here is the Critical part of the WHY. Once a firearm design is solidly Established and RELIABLE…The Cost Cutting begins. The less costly stamping and high quantity manufacture of parts begins. Therein is the problem. Choices must be made. Lots of inexpensively [Not crap, just Not expensive] made O.K. RELIABLE arms, or a much smaller amount of quite well made but Absolutely RELIABLE arms. INEXPENSIVE ARMS = NOT ABSOLUTELY RELIABLE. M-16. Remember? I do. M-16. O.K. For War. Not me. At Home.

There are several other materials used, but on Quality and RELIABLE firearms, Milled Steel or other Ferrous Alloys WERE the STANDARD. Stamped Steel IS the Standard…now. Tools of War. War. Not Sporting arms. As to Steel…Milled solid steel or Stamped sheet steel. These are what you asked about. I gave my Option on my take on the Question’s Answer. There is a third and fourth Steel manufacturing method for firearm receivers and related parts. Perhaps, a fifth method coming along very soon. Later. Milled Steel vs. Stamped Steel..

Website: www.subauae.com

Author: Li Fu Ran, Engineering, Design.

Post By: Irfan Khan

what are good ways to learn how to find suitable distributors for cnc machining center in UAE?

likes to share ideas and insights regarding cnc router, laser, and plasma cutting machine,

Qingdao suba cnc Equipment Co., Ltd was established in december 18, 1999, which is mainly engaged in research, development, manufacture and sale of numerical control Equipments. The company cover an area of more than twelve thousand square meters, and has a staff 180 people. Suba Build the agencies in beijing, shanghai, Nanjing, Guangzhou, etc also build the branch company in dubai. as the famous manufacturer of the china mainland, suba compnay's products are supplied to china and other countries Such as singapore, Russia, Europe, Africa. the company has 2 invention patents, 6 utility model patents, 2 apperance patents. suba is rated "the country's 500 largest industrial enterprises in machinenry", National level measuring and testing Nnity", ministry, provincial and municipal Advanced Quality Management unity", the top 20 enterprises of AD Equipment Indutry" in 2010.

We try to supply perfect cnc Equipment to the world market, keep brining in and learning international advanced production technology and processes. to make high-quality products, we use foreign famous products as the main components such as numerical control system servo motor linear guide ball screw Etc. The company's products are mainly four-axis and five-axis machining centers, computer wood engraving machine, computer, stone engraving machine, computer art, engraving machine, seven-axis machine, computer, stone engraving machine, computer art, engraving machine, seven-axis robot, three- dimensional cylindrical engraving machine, plasma cutting machine, laser engraving machine, computer cutting plotter and its related auxiliary Equipment, etc. suba put reputation and service in the first place, developing and producting high-quaity and cost-effective products, is the company's eternal pursuit. using information technology to transform traditional industries to enhance the equipment level of the national industry,is the company's impetus. "bit is big, honesty is indispensable", suba warmly expect to join hands with global businesses leagues and create a brilliant tomorrow together.

Page source: www.subauae.com

website: www.subauae.com

Post By: Irfan khan

We question inequality in visibility of labor in the conventional design and production relations and propose sharing both authorship and earnings,’ the group said in a statement.

‘Immersing ourselves in this environment, we have lived/observed/tinkered/drew/made together. We challenged ourselves to run a democratic design and production process.’

Page Source:http://goo.gl/bHQwg

Website:www.subauae.com

Post By:Irfan Khan  

Students, researchers and staff of the University of Sydney will showcase the potential of robotics in architecture and design applications at a new exhibition for Sydney Design 2015.

Hosted by the Faculty of Architecture, Design and Planning, University of Sydney, the four-dayexhibition, Fabricating Futures: Robots. Research. Design. will explore the latest trends in robotics and digital technology that are driving innovation.

Robots and digital fabrication are increasingly being used in exciting new ways in the fields of architecture and design, presenting great prospects for the future of these creative industries.

The University’s fabrication facilities in the Design, Modelling and Fabrication Lab (DMaF Lab), one of the most advanced labs of any architecture and design school in Australia, will be a focal point of the four-day event. Fabricating Futures will be exhibited throughout the DMaF Lab, alongside working laser cutters, CNC routers and 3D printers that are used to fabricate models, prototypes and full-scale projects.

Marjo Niemelä, Fabricating Futures curator and Manager of the DMaF Lab at the University of Sydney explained that their facilities will be opened during the exhibition to allow visitors to see up close the creative-making process in action, which is still very much at the heart of architecture and design teaching.

The exhibition features the work of more than one hundred postgraduate students from the Master of Architecture and Master of Interaction Design and Electronic Arts programs, as well as researchers in architecture, architectural science and interaction design that are experimenting with new ideas and using pioneering technology.

Hundreds of complex architectural models, digitally-developed interactive prototypes, lighting and object designs, robotic ideas and innovative research will be on show, providing a glimpse of current ideas and industry potential.

A Sydney Ideas discussion panel facilitated by television and radio presenter Fenella Kernebone on Saturday 12 September, will hear four leading robotic experts – Dr Dagmar Reinhardt (University of Sydney), Marjo Niemelä (University of Sydney), Dr Matthias Haeusler (University of NSW) and Associate Professor Jon McCormack (Monash University) – discuss the current challenges of integrating robotics into architecture and design, the latest advances and industry outlook.

Fabricating Futures is a precursor event to the international ROB|Arch 2016 conference that will be hosted by the University of Sydney in March next year.

Fabricating Futures: Robots. Research. Design. will be held 10-13 September at the Faculty of Architecture, Design and Planning, Wilkinson Building, 148 City Road, University of Sydney.

Page source: http://goo.gl/0Plrll

Website: www.subauae.com

Post by: Irfan Khan

Description for Cnc laser Machine SB1325

1.Working area: 130*250cm

2.Table surface: Aluminum Working Table

3.Control System: USB Control

4.Software Laser: Cut Original Software

5.Laser Power: 130 -150 Watt

6.Accessories: Exhaust System, Air Compressor, Chiller

7.Tools: Tool Box for machine maintenance

8.Cutting: Speed 0—6000mm/min for acrylic

9.Accuracy: ± 0.05mm

10.Operating Temperature: 0 – 45°C

11.Operating Humidity: 8—95%

12.Software: Corel Draw, Adobe Photoshop, Art Cut, Laser Cut

13.Total Weight: 1500kg

Machine with Latest system of Red Color Focus Pointer, Double Exhaust System, Machine designed is very suitable for acrylic cutting.

Detailed Product Description

Suitable for cutting and marking plastic, wood, paper, leather, acrylic, horn, fabric fiber and composite material, etc. It could mark on stone, chinaware, glass, two-color board and alumina, etc. Support bitmap marking, grade marking, vector cutting and laser drilling.

System Characteristics.

1. Mini, high cutting speed, high precision. 2. Fly light path, lift worktable. 3. Red light preview. 4. Adopt imported high class motor, Japanese high accurate belt and belt wheel, imported slide-rail in order to guarantee high precision in high speed movement. Max. Cutting speed 500mm/m, marking speed 1500mm/m, repetitive positioning precision. 5. Consist of optical system, motor system, control system, fume exhaust system, blow-through fan system and focus positioning device. Optional accessory: beehive absorption table. Front door and back door could be open.

Performance Features laser cutting machine. laser engraver is designed for advertising decoration and other industry. The cutting and engraving speed both are high.adopt import linear rail and guide, it moves smoothly. As welll as the advanced DSP control system, 3 phase stepper motor, stable driver, which ensures the high precision cutting and engraving at a high speed, no need secondary processing the depth of work could adjust automatically either.

Guarantee: 12 months limited guarantee from the date of Installation.Free training for UAE customer.

Suba Tech Trading LLC

Who is a maker? What’s a maker persona? 97 percent of makers have a college degree, and 80 percent have a post graduate degree. They’re all engineers and software people who do this as a hobby. The people doing business around it aren’t really makers, they just have the technical knowledge needed to be proficient in these systems. Not everybody should have to spend that amount of time becoming experts.”

Water jets, CNC routers, laser cutters, and 3D printers: they’re all very capable machines and constantly evolving to be better than ever before. The only problem is that not that many people know how to use them.