Category Archives: Industrial Equipment

Your Best Welded Mesh Turning & Stacking Machine Manufacturer – Jiu Tai Precision

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Established in 1983, Jiu Tai Precision Industries Corp. is a remarkable welding equipment manufacturer specializing in welding equipment and wire mesh especially for welded mesh, chain link fence and conveyor belts, which are outstanding among the counterparts.

 

Sticking to the business concept of making the best better and pursuing perfection, the company dedicates to product research and development all the time. Its excellent quality, great trustworthiness and moderate price earn scores of praises.

 

Jiu Tai’s stacking machine is one of their excellent machines. Here, I am going to simply introduce this machine below:

 

Automatic Welded Mesh Turning & Stacking Machine

JT-MTS Series
JT-MTS Series Automatic Welded Mesh Turning & Stacking Machine
The welded mesh turning & stacking machine comes with a user-friend and straightforward control panel. It is designed to turn / flip the mesh in order to reduce the height during shipment or to be stored as stock in the factory to save space and is mainly required for meshes with bigger wire gauges.
JT-MTS Series Stacking Machine - Conveying Rollers
The conveying rollers will transport the finished stack of meshes out when the target sheets are achieved. (e.g. 30 sheets per stack)

If you have any interest in this stacking machine, try to visit Jiu Tai’s website: www.jiu-tai.com. And feel free to send inquiry or contact them to gain further details about this machinery.

 

 

Jiu Tai Precision Industries Corp.

No.36, Minyou St., Douliou Industrial Area, Yunlin, Taiwan

TEL: 886-5-5570911

FAX: 886-5-5570916

EMAIL: jt0911@jiu-tai.com.tw

Looking for Hydraulic Index Table and Rotary Table? TANSHING is The Best Supplier for You.

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Tanshing Hydraulic Index Table Supplier

TANSHING Accurate Industrial Co., Ltd. is a specialist in the design and manufacture of a wide range of CNC rotary tables and hydraulic index tables. The company is dedicated to research and development and technological innovation continually.

 

From design, precision machining, to rigorous quality control, great care is taken to ensure an international quality level. TANSHING’s products are widely recognized in both domestic and overseas markets. The innovative dual lead worm drive system has been patented in Taiwan which is indisputable proof of the superior R&D capability of TANSHING.

 

TANSHING has been certified by AQSR ISO-9001 (U.S.A.). In order to ensure very high precision parts, they have invested heavily in various advanced machining equipment. 90% of their in-house parts machining allows TANSHING to fully control the parts accuracy, which provides a solid foundation for the superior quality of CNC rotary tables and index tables.

 

TAHSHING has always dedicated itself to pursuing higher levels of technology. It is always looking to the future, to new challenges and to new levels of high technology.

 

If you want to get more information about TANSHING hydraulic index table or other excellent products, try to check out their website: www.tanshing.com to obtain the details you need.

 

 

Tanshing Accurate Industrial Co., Ltd.

No. 1-1 Lane 165, Sec. 1, Tan-Shing RD., Tan-Tzu, Taichung 427, Taiwan

TEL: +886-4-2538-4978

FAX: +886-4-2538-4980

E-MAIL: tanshing@ms16.hinet.net

Table Saw vs. Circular Saw – Which One Do You Buy First?

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So you’ve got a looming project ahead that you’ve decided to tackle, and you’re even willing to drop a little cash on some brand new tools to help you get the job done right.

 

But where to begin? The marketing world will have you believe that you need this, that, the other, and everything in between to even think about getting a job done. Naturally, you start questioning yourself and your tools: ‘Well, I’ve got a decent circular saw … do I need a table saw for that front deck project?’

 

This is totally understandable.

 

Yes, there are certainly specific uses for each and every tool out there. And yes, it’s justifiable to want the tools that’ll help you get the job done as easily, efficiently, and professionally as possible.

 

Hopefully, this is where we can be of assistance; helping you determines what you need, and what you don’t.

 

In this article, we’ll rekindle the old, never-ending argument of circular saw vs. table saw: Which one is better? When do you use one or the other? Are there things one can do that the other can’t?

 

Tune in, and find out for yourself.

 

Overview: A Tale of Two Saws – Circular Saw vs. Table Saw

To be straightforward, there is nothing a table saw can do that a good circular saw cannot do.

 

Now, this probably makes the dilemma seem very simple, right? With the choice being to obviously go with a circular saw?

 

Mmm, not exactly. What that first statement should read is this: ‘There’s nothing a table saw can do, that a good circular saw cannot do at the hands of someone who knows how to use it.”

 

Contrary to what multiple ‘expert’ DIY’ers (and probably even some professionals) will say, a circular saw can in fact rip lumber, make cross-cuts, precision miters, tenon/dado/lap joints, inset boards, etc.

 

The key difference is that to the novice user, these precision cuts will be a fair bit easier to make with a table saw, than with a circular saw.

 

Note that we emphasized the term novice user. In order for a circular saw to be used to its full potential and make accurate rips, miters, etc., you’ll need to use a couple extra tools with it like a speed square, shooting board, or edge guide (we’ll talk a bit more about these shortly). This is where things may get a bit overwhelming for novices.

 

With a table saw, you can rely more on the tool to make these precision cuts, rather than on yourself. There’s a little less room for error, so to speak. Simply set the miter or rip fence (depending on whether you’re making rip cuts or cross-cuts), and there’s no doubt you’ll get a perfect cut.

 

The Circular Saw: Range of Use

Like we said, there’s really nothing a circular saw can’t do in the realm of general woodworking.

 

However, you’ve got to know your way around the tool in order to get the most out of it.

 

Even for standard 90-degree cross-cuts on narrow pieces of material like 2×4’s, we recommend using a speed square to ensure a perfect, precision cut. Measure the length that you want your cut at, mark it off with the square, then position your blade and use the square as a guide against the circular saw’s fence. If done correctly, this will produce a perfect, 90-degree square cut every time.

 

The speed square can also be used as a protractor to mark off angled cuts. Simply use the corner of the square as a pivot point, then use the angled side of the square to measure off the exact degree you need. Then you can use the square again as a fence guide to run a perfectly straight cut down the angled line.

 

For ripping boards, unless you’ve got some otherworldly ability that allows you to run a circular saw by eye on a laser-straight line, you’ll want to use a shooting board, or ‘rip-fence jig’.

 

The shooting board is a homemade jig that’s built to the exact dimensions of whatever circular saw you’re using. It acts as a fence guide that allows you to make perfectly straight rips, at whatever length you need. If you make the jig right (it’s super easy), you’ll be able to rip long pieces of lumber or plywood with all the ease and accuracy of a table saw. (Instead of going into a lengthy segment on what exactly a shooting board/rip-fence jig is, here’s a great video on how to make one for your circular saw).

 

Joinery, knotching, and insetting boards is done by simply adjusting the depth of cut on the circular saw blade.

 

For example, to create an inset on a section of 2×4, simply mark off the desired section to the appropriate length, adjust your blade to the appropriate depth (no more than ½ the thickness of the board you’re insetting), and use the speed square to make parallel cuts about 1/16” apart over the entire length of the section. Then, use a hammer and chisel to knock out the material and create the inset.

 

Lastly, most all decent circular saws have an adjustable plane, allowing for angled cuts up to 45-degrees – just like an expensive compound miter saw.

 

The Table Saw: Range of Use

The table saw is an extremely efficient tool because it makes cross-cutting and ripping boards a breeze.

 

Like we just mentioned, a circular saw can certainly be used to rip or cross-cut, but it takes a special jig and generally a keen hand to really make a great, precision cut.

 

On the other hand, you’d have to kind of go out of your way to screw up a cut with a table saw, as long as the fence is positioned and set correctly. (Here’s an excellent video on the ease and advantages of a good table saw, and how to properly use one).

 

Of course, one of the big downfalls of a table saw is its size and non-portability. Unlike a circular saw which you can use just about anywhere, you’ve got to have a bit of a workspace in order to operate a table saw.

 

Price is also a factor worth mentioning: for overall quality, a circular saw will always be less expensive than its table saw counterpart.

 

What we like about both, and top picks for each kind

 

It’s actually pretty tough for us go so far as to say the circular saw is ‘better’ than the table saw. Or vice-versa, for that matter.

 

Like we explained, both saws are fantastic tools that, under the right hands, will produce excellent results.

 

TRUPRO-TEC is a Taiwan-based specialized manufacturer in the design and production of wood table saw machines. And the company always devotes itself to update technology and procedures to keep all machines best quality, high efficiency and durable. With vast experience and knowledge, Trupro-tec is able to supply the most comprehensive range of table sawing machinery to meet and satisfy the ever-changing clients’ demands. If you are looking for a table saw, welcome to visit TRUPRO-TEC: www.trupro-machine.com or email your question.

 

 

Article Source: http://www.thesawguy.com/table-saw-vs-circular-saw/

Does Automotive Wheel Machining Benefit From a Purpose-Built Wheel Machine?

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Victor Taichung Machinery Works, based in Taiwan, makes a wide variety of machine tools, including turning machines and multi-purpose milling machines, but an interesting specialty application of the company are wheel machines.

 

In the video above, we speak with Wayne Hsueh, director of overseas marketing division at Victor Taichung Machinery Works about the difference between wheel machines and general purpose multi-axis machine tools.

 

“The car wheel machine is for clamping the part, because for the part to be clamped, you need a special chuck,” Hsueh explained.

 

“Usually for special purpose machines, the chuck is the key component to reduce setup time and for clamping efficiency. Wheel chips are also different from steel chips, so even a chip conveyor and the protection of ball screws are also somewhat different. For special purpose machines, you should pay attention to the kind of part you’re making, what kinds of chips are produced, what kind of coolant you use and how you dispose of it.”

 

Hsueh explains that Victor Taichung’s special-purpose wheel machines are actually modified general-purpose machines – this saves costs for the company as well as its customers.

 

“We can mass produce all the machine parts, as 80 percent of parts are compatible (between machines),” Hsueh said. “We have some customers that want special-purpose machines only and we pay a lot of attention to them. If we increase production of our general-purpose machine, the special-purpose machine would also become cheaper. We like it cheaper for mass production. That’s why we have a special machine for wheels, but wheel machines are heavy duty for heavy cutting. You need a very reliable machine base and fortunately at Victor Taichung Machines, we build the machines this way from the beginning.”

 

For more information, visit the Victor Taichung Machinery Works website.

 

 

Article Source: https://www.engineering.com/AdvancedManufacturing/ArticleID/15902/Does-Automotive-Wheel-Machining-Benefit-From-a-Purpose-Built-Wheel-Machine.aspx

 

Excetek : The Certificate of 2017 D&B TOP 1000 SMEs Elite Award

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The Certificate of 2017 D&B TOP 1000 SMEs Elite Award

Congratulations! Excetek is awarded the Certificate of 2017 D&B TOP 1000 SMEs Elite Award.

The Certificate of 2017 D&B TOP 1000 SMEs Elite Award
With 11 years of experience manufacturing Wire Cutting EDM, Die Sinking EDM, and Small Hole Drilling EDM, Excetek always sticks to the principle of trustworthy and Innovative. In 2017, Excetek has received a further recognition from Dun & Bradstreet (D&B): the Certificate of 2017 D&B TOP 1000 SMEs Elite Award.

 

This award attests to Excetek’s excellence in the industry. Excetek would like to proudly attribute this honor to all of our customers around the world. Excetek could not be growing in the EDM machines industry without our customers’ supports.

 

Dun & Bradstreet

Dun & Bradstreet was founded in 1984, and is the world’s leading source of business information and insight, with a commercial database of some 230 million enterprises around the world.

 

The award was presented to Taiwan’s top 1000 small- and medium-sized enterprises (SME), in recognition of their growth and contribution to the country’s economy. And these companies will continue to drive the local economy.

 

Learn more information about Excetek or Dun & Bradstreet, try to check out below:

 

Excetek Technologies Co., Ltd.

Website: http://www.excetek.com

 

Dun & Bradstreet

Website: http://event.dnb.com.tw/

 

The Utilization of Vertical Injection Molding Machines

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When it comes to making items that combine light weight, durability, and pleasing shape, look and feel, there’s nothing that quite matches modern plastics. And this is especially true of hand-held items, such as small electronic appliances, where providing ergonomic shape and a grippy, easy-to-hold surface are particularly important.

 

Whether they’re GPS receivers, medical devices, toys, or even kitchen utensils, the best way to produce such items is through the process of over molding. It involves the molding of two different plastics, one on top of, or around, the other, so as to produce what amounts to a single, unified structure that’s strong on the inside yet flexible, colorful, and easy to hold on the outside.

 

Benefits of over molded plastics devices include:

 

  • More Resistant To Shock
  • More Resistant To Water
  • More Resistant To Dust And Vapor
  • More Resistant To Vibration
  • Make Devices More Comfortable To Use
  • Make Devices Just Plain Prettier

 

By now, over molding is a standard process in the injection molding industry, but some methods of executing the process is superior to others. The challenge is to make sure the two pieces, rigid substrate and outer elastomer, to fit together just so, with no gaps, no slack, no possibility of slippage and with no chance of one part pulling on and distorting the shape or integrity of the other. Getting these two molded parts to match up just right takes a good deal of skill and experience. No adhesives can be used, and there should be no manual assembly steps involved, either – it’s mainly a matter of making molds that create a perfect fit and then performing the actual molding process with extreme precision.

 

And it’s here that the right machinery also helps a great deal. Indeed, the best way to produce over-molded parts is with a vertical injection molding machine. It relies on the gentle force of gravity to clamp the inner and outer parts together.

 

That’s different from a horizontal injection molding machine, which relies on mechanical clamping, a method that requires more time and effort and raises the risk of improper fit: Gravity’s pull is always there, always trying to dislocate parts in a horizontal mold. The vertical mold simply takes advantage of gravity instead of trying to fight it.

 

Vertical injection molding equipment is designed with open clamps and rotary tables, which gives them the advantage of being able to work with multiple molds and simultaneous operations such as pre-molding, injection-, and post-molding. The result: less need for manual intervention, greater efficiency, greater productivity, and less cost. What’s more, vertical molding machines often save significant space on the factory floor.

 

In short, vertical injection molding is the method of choice when it comes to producing high-strength, high-touch parts for the electronics, medical, military, and similarly demanding industries.

 

More information about vertical injection molding machine, try to visit the website of Multiplas Enginery Co., Ltd... Multiplas is a leading industrial solutions provider that offers versatile moulding solutions, innovative design and manufactures for the production systems, and provides comprehensive technical support services to the customers committed in 3C electronics, electrical, automotive, medical / optical, and other technical moulding sectors. If you have any interest, please feel free to send inquiry or contact them directly.

 

 

Article Source: http://info.crescentind.com/blog/bid/40004/Over-molding-and-the-utilization-of-vertical-vertical-injection-molding-machines

The Ultimate Guide to Plastic Recycling

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Plastic is among the most popular and important materials used in the modern world. However, its popularity is part of the huge problem and reason why plastics should be recycled. Instead of throwing them away polluting the land and our water bodies, we can optimize the lifespan of plastics by recycling and reusing them.

 

Plastic recycling refers to the process of recovering waste or scrap plastic and reprocessing it into useful product. Due to the fact that plastic is non-biodegradable, it is essential that it is recycled as part of the global efforts to reducing plastic and other solid waste in the environment.

 

Process of Plastic Recycling

 

The following is a step by step process of plastic recycling:

 

  • Collection

 

Plastics are available in a number of forms for example plastic containers, jars, bottles, plastic bags, packaging plastic, big industrial plastics just to mention but a few. Due to their nature and availability, there are plastic collection centers and some business people have ventured into plastic collecting business as a source of income. Tons and tons of scrap plastic are collected and sent to a collecting yard where they are then packed and transported to plastic processing plants. Unfortunately, not all countries have the capacity to recycle plastic. Very few developing countries can actually recycle plastic. This means that, plastic waste is still a major problem to some countries in the world.

 

  • Sorting

 

The actual plastic recycling process starts with sorting of the different plastic items by their resin content and color. This process is also done to ensure all contaminates are eliminated. There are specially designed machines that help in sorting of the plastics according to their resin content. Then the recycling mill sorts the scrap plastic by symbols at the bottom of the plastics.

 

  • Shredding

 

After sorting the plastics, the next step is to cut the plastics into tiny chunks or pieces. The plastic bottles and containers are then ground and cut into tiny pieces or flakes. The heavier and lighter plastic flakes are separated using a specially designed machine. The separation process helps in ensuring that the different plastics are not put together or mixed up in the final product. Remember that different plastics are used to make different items.

 

  • Cleaning

 

After a complete separation, the flakes or chunks are then washed with detergents to remove the remaining contamination. Once the cleaning process is complete, the clean flakes are passed through specialized equipment that further separates the plastic resin types. The plastic flakes are then subjected to moderate heat to dry.

 

  • Melting

 

The dry flakes are melted down. They can be melted down and molded into a new shape or they are melted down and processed into granules. The melting process is done under regulated temperatures. There is specialized equipment designed to melt down plastic without destroying them.

 

  • Making of pellets

 

After the melting process, the plastic pieces are then compressed into tiny pellets known as nurdles. In this state, the plastic pellets are ready for reuse or be redesigned into new plastic products. It is important to point out that recycled plastic is hardly used to make identical plastic item or its previous form. It is in this pellet form that plastics are transported to plastic manufacturing companies to be redesigned and be used in making other useful plastic products.

 

Advantages of Recycling Plastics

 

Plastics should be recycled because of a number of reasons as can be seen below:

 

  • Provision of a Sustainable Source of Raw Materials
  • Reduces Environmental Problems
  • Reduces Landfill Problems
  • Consumes Less Energy
  • Encourages a Sustainable Lifestyle among People

 

In summary, any sort of effort aimed at saving the environment is very important and matters a lot. Since its inception during the environmental revolution in the late 1960s, plastic recycling is one of the most encouraged solid waste management programs in the world. Prior to the push to use of plastic containers by manufacturers, products were packaged in glass, metal and paper. Therefore, in order to keep our environment clean, reduce landfills, provide a sustainable supply of plastics to manufacturers, it is important to recycle plastics.

 

Song Ming Machinery Industries Co., Ltd. is a professional manufacturer of PVC pelletizing plants. They are not only reputable for its pelletizing extruders, it also has the best credentials in the plastic recycling peripherals such as granulators, mixers, ribbon blenders, and knife grinders. “Contributing to the World through Recycling plants”, it is their goal. Learn more information about waste plastic recycling plant, welcome to contact with Song Ming.

 

 

Article Source: https://www.conserve-energy-future.com/recyclingplastic.php

Everything You Need To Know About CNC Equipment

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CNC machines are electro-mechanical devices that manipulate machine shop tools using computer programming inputs. Did you know? The name “CNC” actually stands for Computer Numerical Control and it represents one of two common methods to generate prototypes from a digital software file.

 

The first CNC equipment was developed in the 1940s and 50s and relied on a common telecommunication data storage technology known as “punched tape” or “perforated paper tape.” Punched tape technology is long obsolete as the data medium quickly transitioned to analog and then digital computer processing in the 1950s and 1960s.

 

How Does CNC Equipment Works:

 

Machining in general is a way to transform a stock piece of material such as a block of plastic and arrive at a finished product (typically a prototype part) by means of a controlled material removal process. Similar to the other prototype development technology, FDM (3D printing), CNC relies on digital instructions from a Computer Aided Manufacturing (CAM) or Computer Aided Design (CAD) file like Solidworks 3D. The CNC machine interprets the design as instructions for cutting prototype parts. The ability to program computer devices to control machine tools rapidly advances shop productivity by automating the highly technical and labor intensive processes. Automated cuts improve both the speed and the accuracy with which prototype parts can be created – especially when the material is critical (such as is the case with polypropylene – read more about polypropylene).

 

Oftentimes machining processes require the use of multiple tools to make the desired cuts (e.g. different sized drill bits). CNC equipment commonly combines tools into common units or cells from which the machine can draw. Basic machines move in one or two axes while advanced machines move laterally in the x, y axis, longitudinally in the z axis, and oftentimes rotationally about one or more axes. Multi axis machines are capable of flipping parts over automatically, allowing you to remove material that was previously “underneath.” This eliminates the need for workers to flip the prototype stock material and allows you to cut all sides without the need for manual intervention. Fully automated cuts are generally more accurate than what is possible with manual inputs. That said, sometimes finishing work like etching is better accomplished by hand as well as simple cuts that would require extensive design work to program the machine for automation.

 

Want to learn about the different types of CNC equipment? Read more below.

 

Types of CNC Equipment:

CNC machines typically fall into one the two general categories: conventional machining technologies and novel machining technology:

 

Conventional Technologies:

 

  • Drills:

Drills work by spinning a drill bit and moving the bit about and into contact with a stationary block of stock material.

 

  • Lathes:

Lathes, very much the inverse of drills, spin the block of material against the drill bit (instead of spinning the drill bit and putting it into contact with the material). Lathes typically make contact with the material by laterally moving a cutting tool until it progressively touches the spinning material.

 

  • Milling Machines:

Milling machines are probably the most common CNC equipment in use today. They involve the use of rotary cutting tools to remove material from the stock unit.

 

Novel Technologies:

 

  • Electrical and/or Chemical Machining:

There are a number of novel technologies that use specialized techniques to cut material. Examples include Electron Beam Machining, Electrochemical machining, Electrical Discharge Machining (EDM), photochemical machining, and Ultrasonic machining. Most of these technologies are highly specialized and are used in special cases for mass-production involving a particular type of material.

 

  • Other Cutting Mediums:

There are a number of other novel technologies that use different mediums to cut material. Examples include laser cutting machines, oxy-fuel cutting machines, plasma cutting machines, and water-jet cutting technology.

 

Materials Used:

Almost any material can be used in a CNC equipment. It really depends on the application. Common materials include metals such as aluminum, brass, copper, steel, and titanium, as well as wood, foam, fiberglass, and plastics such as polypropylene.

 

Application for Rapid Prototyping:

CNC equipment was the first major break-through in the field of rapid-prototyping. Before numerical control (in the case of punched tape technology) and computer numerical control (with analog and digital computing), parts had to be machined by hand. This invariably led to larger margins of error in end prototype products and even more so if/when machines were manually used for larger scale manufacturing.

 

Application for Manufacturing:

Many novel CNC specialty machines are built specifically for niche manufacturing processes. For example, electrochemical machining is used to cut highly durable metal products not otherwise feasible. Conventional CNC equipment is more adept at and typically used for prototype development than manufacturing.

 

By the way, when mentioned CNC equipment, I recommend that you can try to visit the website of SEHO Industry Co., Ltd. if you need more information about CNC machinery. SEHO is the professional supplier of specializing in new or used CNC machinery. They adopt stock supply, you can visit their website to check out the machines that can quickly meet your demands of urgent orders. Now, to obtain further details about excellent CNC equipment, please don’t hesitate to contact with SEHO.

 

Article Source: https://www.creativemechanisms.com/blog/everything-you-need-to-know-about-cnc-machines

How to Use a Tool and Cutter Grinder

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Usage of Tool Grinding Machine

A tool and cutter grinder is used to sharpen the edges of tools that have gone dull. The tool grinding machine is not a toy and takes special care and training in order to operate correctly. The tool and cutter grinder is also a rather large machine found in machine shops. It is recommended to take your tools to a professional to grind and sharpen them. The following article will explain how a professional operates a tool grinding machine.

 

4 Steps to Correctly Use Tool and Cutter Grinder

Step 1 – Prime the Machine

It is always a good idea to turn the tool and cutter grinder on to warm it up. A cold grinder will create rough cuts while a warm or hot grinder disc will produce the best result. Allow the tool grinding machine to run for several minutes before taking tool to the grinding disc.

 

Step 2 – Safety Precautions

Just looking at the tool grinding machine suggests a medieval torture device. There is a lot of moving parts, guides and rails to worry about as well as the grinding disc itself. Always wear heavy work gloves when using the machine. You also need to wear safety goggles. The grinding disc is typically abrasive and made with diamonds. When grinder begins to sharpen the tool it can cause small fragments of the tool, the disc or sparks to fly toward your face. Getting any of these superheated fragments in your eye can be very dangerous.

 

Step 3 – Examine the Tool

Not all tools are made the same and it is important to examine the tool you are about to use the tool grinding machine on. You are looking for the angle of the tool, including which way the blade is curved, how the edges are cut and the contact points. This is incredibly important because to properly use the tool and cutter grinder you need to know what direction the tool needs to go. If you fail to do this, you can severely damage the tool you are trying to bring back to life.

 

Step 4 – Using the Tool Grinding Machine

Double check all of your safety areas and examine your clearance. The kind of tool you are using will determine what the settings need to be. For this information you should always consult the instruction manual that came with the machine you have access to. Not every tool grinding machine is the same when it comes to this. Turn the machine on and keep a safe distance from the grinding disc. Remember the curvature of the tool you are sharpening and place it against the grinding disc at the appropriate angle. A knife, for example, would be approximately 45 degrees. Use short movements and firm pressure until you are satisfied it is sharp.

 

Top Work manufactures cutter grinders and tool grinders, including universal tool grinder, CNC tool grinder and monaset tool grinder. They specialize in the grinder development to diversify our products and elevate the quality. Quality is an essential, inseparable part of every process at Top Work. For more information about tool grinding machine, welcome to check out Top Work’s website right away!

 

Article Source: http://www.doityourself.com/stry/how-to-use-a-tool-and-cutter-grinder

The Way of Choosing the Right Surface Grinder

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The surface grinder you need will depend largely on the material that needs grinding. For instance, if any metal surface needs grinding, the grinding wheel should be made of a highly abrasive material, and it should have numerous cutting niches embedded in it. On the other hand, for grinding a wooden surface, what you need is a lesser abrasive wheel.

 

The Types of Surface Grinder

 

There are two basic types of surface grinders, and they are:

 

  • The Planer-type
  • The Rotary-type

 

In the Planer-type, the grinding wheel remains stationary, while the worktable moves in a back-and-forth motion. This movement is controlled either manually or through some hydraulic drive system. These grinders are selected when overall grinding is required once the machine component has left the foundry.

 

In the Rotary type, the grinding wheel rotates, as does the circular worktable. These rotary surface grinders are selected when the precision machine parts require grinding, before being fitted into its housing. In both the surface grinder types, the safety hazards are well taken care of, and because of this, accidents rarely happen.

 

Things to do After a Surface Grinding Job Is Over

 

After a surface grinding job is over, the entire work station should be cleared of debris. If the work was done on a wooden material, the saw dust may be supplied to those who make composite boards, while the shavings from the metal surface can be sent to steel mills for melting.

 

However, what matters most is the safe clean-up of the work area, as otherwise, someone might get injured from carelessly thrown bits of metal shavings. Also, the surface grinder needs attention after each operation. It should be checked for any flying debris that blocks its air vents or any damage caused to the moving parts.

 

TONG YI Machinery Inc. is the outstanding rotary surface grinder manufacturer in Taiwan. If you need more information about kinds of surface grinding machines, welcome to visit their website and feel free to send inquiry or contact with them.

 

 

Article Source: http://EzineArticles.com/6191258