Thursday, October 20, 2011

Baileigh Industrial Double Pinch Angle Roll Machine - R-H65

#Baileigh Industrial Double Pinch Angle Roll Machine - #R-H65

Order at Light Tool Supply here http://www.lighttoolsupply.com/cBaileigh-Double-Pinch-Angle


Baileigh Double Pinch Angle Roll Machine - R-H65


Baileigh Double Pinch Angle Roll Machine - R-H65

Ring and Angle Roll Bender

Baileigh Industrial is proud to introduce its newest ring and angel roll bender, the R-H65.  The R-H65 roll bender is built using the same high quality components as the rest of Baileigh Industrial's double pinch roll benders.  The R-H65 has a capacity of 2" Schedule 40 pipe and is the perfect size for most fabrication shops.   The R-H65 angle roll is considered a double pinch roll bender since the top roll is fixed and the two bottom rolls operate on independently controlled hydraulic cylinders with encoders that communicate to the digital readout for exact positioning of each roll.  The advantages of the double pinch are that it allows for pre-bending and post-bending of material that saves production time and material waste.
The R-H65 roll bender features an extremely ridged frame made of heavy steel plate.  The plate is then electro welded for further structural strength allowing for no flex at full capacity.  A large 6.25HP hydraulic motor handles all the bending functions on this angle bender.  The Baileigh industrial R-H65 angle bending roll comes standard with an industrial grade transmission that drives all three rolls and comes standard with a set of segment rolls for doing all types of shapes and profiles.  Of course, if your job requires specialized tooling, Baileigh industrial can handle that as well.

Tuesday, October 18, 2011

#Caliper Tips and Tricks

Order #Mahr Federal Tools at Light Tool Supply
http://www.lighttoolsupply.com/Mahr


Caliper Tips and Tricks
George Schuetz, Mahr Federal Inc.
We are all familiar with the versatility of calipers—Vernier, dial, or digital. On the shop floor, in the inspection room, or even now for the home hobbyist, the caliper is a fast and easy-to-use tool to make basic length measurements. But while the caliper is a versatile tool, it is not one of the most precise. Skill is required for positioning and interpreting measurement results. As the user develops his "feel" for the tool, his measurement results become more consistent.
Even a digital caliper—which takes most of the guesswork out of reading the measured value—still requires skill on the part of the user to apply the tool properly to the dimension being measured. The jaws of the caliper must be square or perpendicular to the part. They need to be held firmly against the part, but not to the point of deflecting them. The part should be kept as close as possible to the frame of the measurement tool.
Here's a basic three-step method for using a caliper:
1) Close the caliper so that the jaws are together, and "zero" out the display. Then open and close the jaws a couple of times, checking for repeat of the zero setting. If there are a "couple of counts" of difference, re-zero and try again until you are convinced that there is a good zero condition.
2) Measure the part. Here is where the operator influence comes in. Make sure the caliper is parallel with the line of the measurement, i.e., that the jaws of the caliper are square to the surface being measured. On a part with parallel surfaces this looks fairly easily, but on an outside diameter more care is needed. As with checking the zero repeat, check the measurement by repeating it a couple of times to ensure the measurement is good.
3) Once you are satisfied with the measurement, remove the part and go back and check zero. Just as when setting zero, make sure it repeats. An inadvertent zeroing during measurement or dirt may show a non-repeating condition
As shown in figures 1–4, almost everyone who has ever used a caliper is familiar with the four basic checks that the gage is designed to do: outside, inside, depth and step.
However, digital calipers also have the capability to make compound measurements. Since an electronic digital caliper can be zeroed at any point, you can use it to do some of the arithmetic required for calculating the results of a measurement. For example, the following procedure can be used to measure the center distance between two bores of equal diameter:
1) Use the inside jaws to measure the diameter of one of the bores (figure 5). Before you remove the caliper from the bore, press the button to zero the caliper while it is set to the diameter of the hole.
2) Still using the inside jaws, measure the distance between the far surfaces of the two bores (figure 6). The caliper reading will be the distance between the centers of the two bores.
Like any measurement tool, the caliper must be treated with care and respect. Don't use it for purposes for which it was never intended (such as prying things apart). Wipe it clean after use, and don't throw it on the workbench. For dial calipers, be particularly wary of dirt which can accumulate on the rack, throwing measurements off and ultimately damaging the indicator. Store a caliper in its case. If it's going to be there for a while, apply a thin coat of oil to the jaws to inhibit corrosion.
Check the caliper often for wear, as well as burrs and scratches on the jaws and contacting surfaces. A simple way to do this is to pass a master disc along the jaws while inspecting for wear or taper. Like any measurement tool, a caliper should be calibrated at least once a year, more often when use is heavy or there are multiple users of the same instrument.
Calipers are very versatile tools, but they are not right for every job. As we have noted many times, it is critical to pick the correct hand tool or gage for the job. As tolerances get tighter and tighter, selecting the correct gage becomes very important. Digital calipers typically read in 0.001" or 0.0005" units. So if the tolerance is tighter than 0.002", a micrometer (or some other, higher accuracy tool) should be used instead.

Figure 1. << Outside Diameter >>


Figure 2. << Inside Diameter   >>


Figure 3. << Step   >>


Figure 4. << Depth    >>



Figure 5. << Step 1 - Measure Diameter then Zero Caliper   >>  


Figure 6. << Step 2 – Center Distance of two bores of equal size   >>

Thursday, July 21, 2011

Manufacturing in the Philadelphia area increased more than expected in July.

As many of you might be aware Dan The Metalworking man resides in Philadelphia.
Most of the time I am seen drinking a Brewsky and getting my hands dirty creating masterpieces in Metal.
However, every so often I throw on a Tux and say no to the Brewsky and ask my good bartender to mix me a Gin and Tonic.  Today is one of those days!!!
Do you know why?  Because Manufacturing in the Philadelphia area increased more than expected in July.
That means more Metalworking Men like Dan are working and making things.  Maybe we are on the road to recovery after all?  Makes me want to go out and spend a fortune on some Baileigh Industrial Equipment I have been waiting on.  http://www.lighttoolsupply.com/catalog/Baileigh

Anyway, if you care to read up on mfg. in Philly read below.
Right now I am going to sit back and enjoy my good old Gin and Tonic.
http://www.foxbusiness.com/

Weekly claims for unemployment benefits rose to 418,000 from a revised 408,000 last week, according to the Labor Department, a higher number than the 410,000 economists had expected.
The labor market has been a major focus after the monthly unemployment report for June showed dismal job growth.  Additionally, claims have been stuck above the closely-watched 400,000-level for several weeks. 
Manufacturing in the Philadelphia area increased more than expected  in July.  The Philadelphia Federal Reserve's survey of business conditions rose to 3.2 from -7.7 on the month, topping estimates of a reading of 2.  Readings above 0 indicate expansion, while those less than 0 point to contraction. A regional report by the New York Fed had come in below expectations earlier in the month. 

Friday, July 15, 2011

Some people don't think the above cartoon looks like me, but I do.
Dan the Metalworking Man has now been immortalized with the likes of Bugs Bunny, Superman, Homer Simpson, and of course Family Guy Peter Griffin who I have been compared to many times.
Anyway being a Metalworking fanatic I keep up with what if anything President Obama is doing to help out us poor schlubs who wake up every day and get there hands dirty forming things with Metal.
Read the article below and see what's up with Mr President?  Will it help?  Only time will tell.
In the meantime I need a Brewsky!
----------------------------------------------------------------------------------------

Friday, July 15, 2011


President Unveils Advanced Manufacturing Partnership



Article from IMTS Insider
http://www.imts.com/visitor/newsletter/insider/2011Jul14/lead_PresidentUnveilsAMP.html



President Unveils Advanced Manufacturing Partnership

July 14, 2011
Last month, President Obama announced the launch of the Advanced Manufacturing Partnership (AMP) to create highly-skilled, good-paying jobs and improve U.S. global competitiveness.
AMP is a national effort to bring industry, universities and the federal government together to invest in emerging industries, particularly those critical to national security. It is based on the recommendations of a study by the President's Council of Advisors on Science and Technology (PCAST) titled "Ensuring Leadership in Advanced Manufacturing." The $500 million plan uses existing funds and future appropriations from the budgets of various federal agencies to boost innovation in manufacturing technologies such as small, high-powered batteries, advanced composites, metal fabrication, bio-manufacturing and alternative engineering. The goal is to enhance defense-critical industries; build U.S. leadership in next-generation robotics; and increase energy and technological efficiency in manufacturing.
The Department of Energy has announced two initiatives supporting AMP. The first is an investment of up to $120 million over three years to support the development of transformational manufacturing technologies and innovative materials that would improve energy efficiency at manufacturing plants. The second is a partnership between DoE's National Training and Education Resource (NTER), National Association of Manufacturers' Manufacturing Institute, the Ford Partnership for Advanced Studies, and Macomb Community College to explore opportunities to support manufacturing job training.
In Congress, House Democrats have been touting their own manufacturing agenda. The "Make It in America" plan includes several bills aimed at strengthening the "smartforce" and stimulating innovation and R&D. To read more about "Make It in America," see the related article in this Insider issue.
Thus far, the Republican congressional leadership has offered no specific agenda to boost manufacturing, and the field of GOP candidates for President has been virtually silent on the subject. However, many GOP members of Congress have been vocal on the need to rein in taxes and regulations, especially on small businesses, which they believe is key to restoring confidence to the industrial sector.








Light Tool Supply offers industrial tooling and supplies for the Metalworking Industry and Manufacturing .

Thursday, July 14, 2011

The Road to US Recovery begins with bringing mfg back to the Good Old USA!!!

Interesting article I found on a blog http://lighttoolsupply.blogspot.com/.  We all know what is wrong with our economy and the best way to fix the dam thing is to get the jobs back and make stuff again here in the USA.  Fortunately it seems like some people are getting the message.  So while I sit back and change this tire on my Waverunner drinking a nice cold one, read up on how we can save our country.  START MAKING THINGS HERE BESIDES CRYBABIES!!!

Tuesday, July 12, 2011


Committing to U.S. manufacturing

http://www.politico.com/news/stories/0711/58414.html

Committing to U.S. manufacturing

By PETER A. BORDEN | 7/6/11 

We can do more as a nation to accelerate manufacturing expansion, says the author. | AP Photo

We can do more as a nation to accelerate manufacturing expansion, says the author. | AP Photo


A quiet revolution is under way today inside many U.S. factories.
Using modern processes, large and small manufacturers are creating U.S. jobs, exports and economic strength at a time when these gains are especially important.
Thanks to machine tool technology advances, U.S. corporations of all sizes have become more competitive, boosting their output per labor hour — the definition of productivity increase — without raising costs. Many U.S. firms now provide global customers with the lowest cost per part available anywhere. Beyond increased efficiency, favorable economic forces also strengthen our manufacturing sector.“The gap between U.S. and Chinese wages is narrowing rapidly,” according to the Boston Consulting Group, which speaks of a “manufacturing renaissance.” The respected business strategy firm forecasts a continuing shift back to stateside production – “reshoring” or “insourcing” – for some appliances and heavy equipment marketed domestically. It cites a new Caterpillar plant in Texas, with 500 workers.
Manufacturing has added more than 230,000 jobs since January 2010, according to federal figures. Economic activity in the sector expanded in May, for the 22nd straight month, and is growing at its fastest pace since 2004, according to the Institute for Supply Management.

Many toolmakers are resuming two- and three-shift operations, reopening a production spigot they turned off in late 2008, when the global financial crisis began. With auto makers and many other manufacturers reinvesting, the order pipeline is refilling.
The death of American manufacturing has clearly been greatly exaggerated.
More than 50 bills have been introduced in Congress to bolster this sector. One measure calls on the administration to work with industry, labor leaders and others “to achieve the greatest economic opportunity for manufacturers in America.” according to of Rep. Daniel Lipinski (D-Ill.), who introduced the bill with 28 bipartisan cosponsors. Sen. Sherrod Brown (D-Ohio) introduced a Senate version.
It’s encouraging to see Congress focus on manufacturers as a vital national resource. Just as positive is the White House support for an expanded Skills for America’s Future program, which aims to help 500,000 community college students “get industry-accepted credentials for manufacturing jobs that companies across America are looking to fill,” as President Barack Obama announced in early June.
But we can do more as a nation to accelerate manufacturing expansion and make it a permanent cornerstone of our economy.
A national commitment to manufacturing would be similar to the one that made NASA a priority during the 1960s. The parallels are striking — as could be the results:
• Manufacturing, like the space program, can benefit from a new generation of engineers, computer scientists, research and development support and technology skills training.
• As a leading-edge field, dependent on computer-assisted design, robotics, laser tools, battery improvements, green processes and global logistics, manufacturing is a high-skill, well-paid career.
• Innovations developed and patented for manufacturing can migrate to energy, health care, electronics, telecommunications and other areas — much as many NASA research breakthroughs spread.
• Seeing more Americans build what we use and export should bolster the economy and national pride, just as when we built rockets carrying capsules that could circle the globe.
As part of this effort, the American Machine Tool Distributors’ Association is joining with the Society of Manufacturing Engineers and several leading companies to inaugurate a manufacturing summit this fall. The Interactive Manufacturing Experience, or imX, is designed to share new technologies and foster collaboration that can help advance our industry.
We want to show how manufacturers in aerospace, automotive, medical devices and other fields are rebooting to reach higher levels of innovation, efficiency and productivity in the U.S.
We plan on addressing challenges that define the future of our entire industry, including workforce development, cost reduction, green manufacturing, production floor networking, micro-machining technology, lean manufacturing and other topics.
But the crucial conversations at imX must extend beyond this three-day summit. Discussions about the future of U.S. manufacturing – the economic engine of our nation – must continue in Washington, on factory floors and in boardrooms across the country. And they must lead to collaborative action by government and industry leaders if manufacturing is to continue powering our economy to a full recovery.

Peter A. Borden is president of the American Machine Tool Distributors’ Association. The group is a founder of the inaugural Interactive Manufacturing Experience (imX), a manufacturing summit this September.

Thursday, June 16, 2011

#Tools that should be in #every #mans #Toolbox

Dan The Metalworking Man is here today to talk about some tools that any MAN worth his salt better have in his toolbox.  Some of these may seem very basic but that is the beauty of it all.
Let me recommend a few and see what y'all think.
Stanley Knives Gray Enamel Finish
Utility Knife 
Tools that should be in every mans Toolbox
http://www.lighttoolsupply.com/knife
It's beauty is in it's simplicity. Not designed for one purpose. From cutting batts of insulation to opening packages and taking paint off paint covered screws. This is a must have for any toolbox or weekend repairman. You call yourself a handyman you better have one of these.
 
General Center Punch Sets
 
Center Punch
http://www.lighttoolsupply.com/centerpunch 

 
Tools that should be in every mans Toolbox

These tools are not just for starting holes in metal. You can use it to tighten a loose knife handle or shovel by centering the punch on the rivet and then hitting it with a ball-peen hammer, expanding the rivets head. Try a spring loaded one for ease of use and accuracy.
 
 Empire Torpedo Levels
Level

Tools that should be in every mans Toolbox
http://www.lighttoolsupply.com/levels
There is a multiple uses for this tool and you can have more than one in your toolbox. For really precise applications use a laser level. Mount it on a stand and the laser will rotate 360 degrees projecting a visible level line.
 
 
 
Gorilla Glue
Glue
http://www.lighttoolsupply.com/glue
Tools that should be in every mans Toolbox

For many jobs a polyurethane glue like Gorilla Glue will be a great way to solve many of your problems. Gorilla Glue is very strong and sticks to a variety of surfaces. Another cool thing is it has a cool name. Get some Gorilla today!!!
 
 
 

Precise High Speed Steel Drill Sets

Precise High Speed Steel Drill Sets


 
Drill Bit

Tools that should be in every mans Toolbox
http://www.lighttoolsupply.com/drillbit
Use them for drilling wood and most plastics. For industrial use, it is probably better to get a set of titanium coated sets.
Remember that heat and friction will slowly take away the bits honed edge.
You can purchase a Drill Dr (which Light Tool Supply also sells) to sharpen up those dull drill bits back to their original sharpness.
 
OldForge Cold Chisel
Cold Chisel

 http://www.lighttoolsupply.com/coldchisel
Tools that should be in every mans Toolbox-
Use this tool to cut through bolts, rivets, and pins. Using the chisel cold as opposed to torch or forged heating for the same result. Strike the chisel with a Ball-peen hammer. Always wear safety glasses and never use it on stone or concrete.

Wednesday, June 15, 2011

#Surface Roughness Testing



They are many devices you can use to test the Surface Roughness of a metal part.  Surface Metrology is the measurement of small-scale features on surfaces.  When choosing a unit, it all depends on how much money you want to spend and the various features each tester has.  Some of them are Made in China and usually are less expensive.  Below are a few that I recommend at various price levels.

Phase II Surface Roughness Gauge

 http://www.lighttoolsupply.com/phase2

Phase II Surface Roughness Gauge





  • The diamond stylus is hypersensitive and sophisticated enough to allow for a .001(µm) micron display resolution.


  • Utilizes an easy interface to allow for changes on in/mm (µin/µm), cutoff length, sampling length, parameters, level of test (stylus position) digital filters and more!


  • Measurement results are displayed as large characters on the LCD screen for easy recognition.


  • Battery powered portability allows the SRG-4000 surface roughness testers to mobilize productivity throughout the shop.


  • Menu driven operating system.


  • 4 different roughness parameters.


  • Inside/Outside diameters.


  • Stylus indicator.


  • RS 232 output to printer/PC.


  • Extended memory functions.


  • Auto-off with auto store.
    Specifications:
    Roughness Parameters: Ra, Rz, Rq, Rt
    Assessed Profiles Primary profile(p), Roughness profile(R) tp curve (Mr)
    Measuring System Metric µm,  Imperial µ inch
    Display Resolution
    +/-20 m  = 0.001 µm
    +/-40 m = 0.002 µm
    +/-80 m = 0.004 µm
    Display Range
    Ra, Rq: 0.005 µm up to 16 µm
    Rz, Rt: 0.02 µm up to 160 µm
    Pick Up Measuring Range: +/- 80 µm
    Conformance Standards: ISO/DIN/JIS/ANSI
    Sensor Specifications: 5 m Diamond Tip Stylus
    Sensor Angle: 90°




  • SPI Portable Surface Roughness Tester

     Portable Surface Roughness Tester

     http://www.lighttoolsupply.com/SPI



    Portable and Robust for Efficient use in the Work Shop, Yet Delicately Precise for Inspection




  • Ra - average roughness.


  • Rz - (RTM) mean roughness depth (DIN).


  • Meets ANSI, ISO, DIN & Mil specifications.


  • Roughness in microinch or micrometers.


  • Digital display located on top.


  • Includes probe and standard (NIST traceable).


  • Easy to read LCD readout.


  • Out of range Hi/Low indicator.


  • Low battery indicator.


  • Uses 9V battery for approx. 3000 measurements.


  • Furnished in fitted case.

    Specifications: Overall Dimension: Approx. 5.5"x 3"x 1" Measuring Range: Ra - 1µ" to 250µ"/0.01µm to 6.35µm Rz* - 8µ" to 999µ"/0.2µm to 25.0µm Display Resolution: 1µ"/.01µm Max Stylus Force: 1500mfg/15.0mN *per DIN 4768. Note that the .0002"/5µm stylus radius must be used to measure these parameters


  • Mahr/Federal Pocket Surf Portable Surface Roughness GageMahr/Federal Pocket Surf Portable Surface Roughness Gage

     http://www.lighttoolsupply.com/Mahr

     EMD-1500-311

    EMD-1500-321  


    The Pocket sized completely portable, economically priced tool for performing traceable surface roughness measurements.

    Features:
    • Pocket sized, compact and solidly built.
    • Operates in four probe positions:
      0°, 90°, 180°, and 270°.
    • Easily interchangeable probes.
    • Measures four, switch-selectable Parameters:
      Ra-Average roughness
      Ry-Maximum roughness depth(DiN)
      Rmax-Max. roughness depth (DiN)
      also called Rtm.
    • Built in digital output.
    • Supplied with general purpose probe. For most surface roughness applications. Has a 90° conical diamond stylus.

    Swivel Fixture
    Exclusive Swivel Fixture that will allow you to mount the Pocket Surf horizontally or vertically, enhancing the capabilities of both the Pocket Surf and your heightgage or height stand.

     


    Mitutoyo Surftest SJ-210 Portable Surface Roughness Tester

    Mitutoyo Surftest SJ-210 Portable Surface Roughness Tester
    http://www.lighttoolsupply.com/Mitutoyo-Surftest-SJ-210

    Surftest® SJ-210 portable surface roughness tester combines high accuracy and measurement speed with numerous innovative features creating a new class leader in surface inspection.





  • 2.4" color LCD display includes backlighting and over-size fonts.


  • Display direction can be changed to be read vertically or horizontally right and left handed.


  • Self-timed measurement supported.


  • Color tolerance judgments, evaluation curves and all data can be displayed in one of 16 languages.


  • Security management supports password protected function locks.


  • The detector/drive unit can be detached from the display unit for effortless measurement of awkwardly oriented workpieces.



  •   Brown & Sharpe TESA RUGOSURF 20, Portable Surface Finish Instrument
      Defelsko PosiTector UTG Ultrasonic Thickness Gage
      Flexbar Composite Set of Roughness Standards
      Flexbar Composite Set Of Surface Roughness Standards
      GAR Micro-Comparator, The Original Made in USA
      Industrial Press Grinding Technology
      Mahr - Pocket Surf III Kit
      Mahr Marsurf M300 Surface Roughness Tester with Bluetooth Technology
      Mahr/Federal Pocket Surf Portable Surface Roughness Gage
      MahrSurf PS1 PORTABLE SURFACE ROUGHNESS TESTER
      Mitutoyo Gage Block Sets
      Mitutoyo Hardmatic HH-411 Series 810-Impact Type Hardness Testing Unit
      Mitutoyo Portable Surface Roughness Tester
      Mitutoyo Surface Roughness Tester Surftest SJ-411/412
      Mitutoyo Surface Roughness Tester
    Surftest SJ-310
      Mitutoyo Surftest SJ-210 Portable Surface Roughness Tester
      Mitutoyo SURFTEST SJ-301 With Built-In printer
      Mitutoyo Surftest Surface Roughness Gage System
      Phase II Portable Surface Roughness Tester Profilometer
      Phase II Surface Roughness Gauge

    Tuesday, June 14, 2011

    Dan the #Metalworking Man found his pilots for his Private Plane

    You know being in the Metalworking business I make a boatload of money.   So when these girls asked to fly my Private Jet what was I suppose to do?  They were hired on the spot.  I will keep you up to date on how they are doing.


    .

    Who makes a really good #Electronic Micrometer?


    Over the years this conversation comes up all the time with #Tool and Die makers and Metalworkers.
    Who makes the best Electronic Micrometer for the money?  Times are tough these days and when I spend some Cashola I want what I buy to be a good value and last a long time.  I have to say that #Mitutoyo make a hell of a good Micrometer.  In fact they make everything good.  This Company which is based in Japan has been around a very long time and they make their product in the typical Japanese way.  They take pride in what they make and care about what their customers think.
    Here is a little history on Mitutoyo.

    Corporation chronicle Product chronicle


    1934
    Yehan Numata founded a research laboratory at Musashi Shinden in Tokyo for the domestic production of micrometers.

    1936
    Founded Kamata Factory at Kamata in Tokyo and named Mitutoyo Manufacture.

    1938
    Reorganized to stock corporation and Yehan Numata was inaugurated as president.
    1930-

    No.1 Micrometer
    No.1 Micrometer

    1937
    Succeeded in domestic production of micrometers.
    1940
    Constructed Mizonokuchi Factory at Kawasaki, Kanagawa for mass production of micrometers, and immediately started operation.

    1944
    Constructed Utsunomiya Factory for mass production of high-speed film perforators, and immediately started operation.

    1945
    Kamata Factory was lost due to war damage.
    Mizonokuchi Factory dissolved the organization leaving only security personnel.

    1947
    Founded Hiroshima Research Laboratory at Shiwa in Hiroshima prefecture for preserving of micrometer manufacturing technologies.

    1940-

    1942
    Trial manufacture of gauge blocks

    1943
    Trial manufacture of capacitance-type electric comparator







    1947
    Restarted producing micrometers.
    Developed an automatic weight sorting machine.
    1953
    Mizonokuchi Factory became the first factory in Japan that was permitted to carry JIS (Japan Industrial Standard) marks on outside micrometers.

    1954
    Yehan Numata attended in the International Metrology Conference (U.S.A.), exhibited corporate products and established a foot hold for export.

    1955
    Opened Tokyo Office and Osaka Office.



    1958
    Opened Nagoya Office.

    1959
    Separated the sales department and founded Mitutoyo Trade Corporation instead.
    Construced Hiroshima Plant at Kure in Hiroshima prefecture and absorbed Hiroshima Research Laboratory aiming for consistent production of micrometers.

    1950-

    1952
    Commenced production of indicating micrometers.
    Commenced production of snap meters.
    Commenced trial production of small-size calipers.

    1953
    3Completed a 3m outside micrometer (then world largest).
    Commenced production of grinding gages.

    1957
    Commenced production of projection-type inspection machines.
    Commenced production of Height Masters.

    1958
    Commenced production of Test Indicators.
    Commenced production of precision surface plates.
    Commenced production of small stainless steel calipers.

    1959
    Commenced production of dial indicators.
    Commenced production of Height Gages.



    Corporation chronicle Product chronicle


    1960
    Opened Kyushu Office.


    1961
    Rebuilt Numata Research Laboratory at Chigasaki in Kanagawa prefecture and started operation.




    1963
    Founded the first local corporation "MTI Corporation" (Present Mitutoyo America Corporation) in New York City, U.S.A.



    1965
    Headquarters moved to Mita in Minato-ward, Tokyo.


    1967
    Numata Research Laboratory raised to a dedicated factory of gauge blocks.
    Constructed Hiroshima Molding Factory (present Hiroshima Forming Material Factory) by separating the molding division of Hiroshima Factory.

    1968
    Founded Sampo Mesgerate GmbH (present Mitutoyo Mesgerate GmbH) in Dusseldorf, Germany.
    Yehan Numata was inaugurated as the chairman of the board of directors and Junzo Katayama as the president.
    1960-

    1960
    Developed roughness specimen for surface texture measurement.
    Commenced production of large-size calipers.

    1961
    Commenced production of electric dial indicators.
    Commenced production of bore gages.

    1962
    Commenced production of Okoshi-system surface roughness testers.
    Commenced production of electric comparators called "Mu-Checker".

    1963
    Commenced production of dial calipers.

    1964
    Commenced production of toolmakeræes microscopes.

    1966
    Commenced production of "Surftest" which is an averaging-type surface roughness tester.

    1967
    Commenced producing gauge block standard sets.

    1968
    Developed and started production of 2D coordinate measuring machines.

    1969
    Developed and started production of three-point type inside micrometer named "Hole test".
    1970
    Constructed and started operation of Batoh Factory as Utsunomiya Sub-Factory at Batoh-cho, Nasu-gun, Tochigi prefecture.

    1971
    Founded Electronic Technology Research Laboratory in Kawasaki.
    Toshihide Numata was inaugurated as the president.

    1974
    Founded Mitutoyo do Brazil Industria e Comercio Ltda. and constructed Suzano Plant as the first full-scale overseas production base.

    1975
    Mitutoyo Metrology Institute was opened.

    1977
    Founded Onomi Precision Corporation at Onomi village in Kochi prefecture as a cooperative corporation of Hiroshima Plant.

    1978
    Founded Mitutoyo Asia Pacific Pte. Ltd. In singapore.
    Sampo Mesgerate GmbH moved from Dusseldolf to the new corporate building in Neuss.

    1970-

    1970
    Commenced production of CMMs mounted with originally developed linear scales.
    Commenced production of 2-column type Height Gages with counter.

    1971
    Developed a horizontal-type CMM.
    Developed (first in Japan) a contour measuring machine named "Contracer".

    1972
    Developed a table rotary-type roundness measuring machine.

    1975
    Commenced production of Linear Scale Units

    1976
    Developed a CNC CMM.

    1979
    Commenced production of Digimatic micrometers "MD Series".
    Commenced production of bridge-type CMMs "B200 Series".



    Corporation chronicle Product chronicle


    1980
    Founded Mitutoyo (U.K.)Ltd. in Andover, England.
    Founded Mitutoyo Mexicana S.A. de C.V. in Mexico City.

    Shiwa Factory, sub-factory of Hiroshima Plant, started operation.
    Constructed MTI Engeneering Corporation (present Mitutoyo America Corporation Los Angels Factory) in Los Angeis. U.S.A.
    Constructed Yasuura Factory at Yasuura-cho, Kamo-gun, Hiroshima prefecture.

    1981
    Founded Sampo Nederland B.V. (present Mitutoyo Nederland B.V.) in the Netherlands.
    Constructed Lerma Factory in Lerma City, Mexico.

    Founded Mitutoyo Scandinavia AB.

    1982
    Constructed and started operation of Kiyohara Plant at Kiyohara district in Utsunomiya as a dedicated factory for linear scales.
    Installed the Microcord Division for development and production of CMMs.
    Installed Measurement Technology Research Laboratory.
    Founded Mitutoyo Belgium N.V.

    Yehan Numata was inaugurated as the Executive Advisor, Toshihide Numata as the chairman of the board of directors and Yoshiteru Numata as the president.
    Founded System Technology Institute (STI).
    Constructed Miyazaki Plant (dedicated to gauge block production) at Tano-cho of Miyazaki prefecture and succeeded in production from Numata Research Laboratory.

    1986
    Founded Mitutoyo France S.A.R.L.

    1987
    Founded Mitutoyo Taiwan Co.,Ltd. in Taipei, Taiwan.
    Founded Mitutoyo Italiana S.R.L.

    Constructed DRO Factory in Plymouth, Michigan, U.S.A. for the production of digital scales.
    Renamed to Mitutoyo Corporation, and merged Mitutoyo Trade Corporation.
    Installed Sales Department.
    Constructed and started operation of Shiwa Plant in Higashi-Hiroshima as a dedicated factory for micrometers.
    Renamed Hiroshima Factory as Kure Plant and made a dedicated factory for optical measuring machines and form measuring machines.
    Installed Numata Memorial Hall as one of the activities to mark 50th anniversary.

    1988
    Founded Mitutoyo Schweiz AG in Zurich, Swizerland.
    Founded Mitutoyo (Malaysia) Sdn. Bhd.
    Restructured the old Chicago Office as OæfHara Factory used for consistent production of inch-system dial indicators.


    1989
    Installed Mitutoyo Museum as an industrial museum of precision measuring equipment.
    1980-

    1980
    Commenced production of Digimatic Height Gages "HD Series".










    1981
    Commenced production of Digimatic indicators "ID Series".







    1983
    Commenced production of Digimatic calipers "CD Series".
    Commenced production of Laser Scan Micrometers.













    1987
    Commenced production of non-contact CMMs.

















    1988
    Developed and started production of ceramic gauge block.
    Developed a length measuring encoder called "Laser Holoscale".



    1989
    Commenced production of high-accuracy contour and form measuring machines "CBH400 Series".
    1990
    Constructed Osaka Operation Center at Minami Port, Osaka.
    Founded European Research Laboratory in the Netherlands for researching into basic technology of measurement.
    Installed Technical Service Department and reinforced the CMMæfs field services.
    Constructed Aurora Factory for knock-down field service of CMMs in Illinois, U.S.A.


    1991
    Constructed Tsukuba Research Laboratory in Tsukuba, Ibaraghi prefecture.

    1992
    Opened Utsunomiya Operation Center.

    1993
    Installed Mitutoyo Calibration Centers at Kawasaki, Utsunomiya, and Hiroshima Operations.
    Miyazaki Plant, Shiwa Plant, Tool & Gage Plant, Kiyohara Plant, and Telford Factoryacquired ISO9002 registration.
    Miyazaki Plant and Tsukuba Calibration Center became approved undertakers for laser of length standards.

    1994
    Installed Mitutoyo Korea Service Corporation in Seoul, South Korea.
    Microcord Plant, Calibration Laboratories in Chicago and Los Angeles acquired ISO9002 registration.

    1995
    Ø…Ì\Yoshiteru Numata was inaugurated as the depty-chairman of the board of directors and Norio Takatsuji as the president.
    Mizonokuchi Development Center and Kure Plant acquired ISO9001 registration.
    Technical Service Department andæASuzano Plant acquired ISO9002 registration.

    1996
    Opened Koriyama office

    1997
    Celebrated the 100th anniversary of the founder Yehan Numataæfs birth.
    Opened Okayama office Condstucted and satarted operation of Nakatsugawa plant.

    1998
    Opened Mitutoyo Measuring Instruments in Suzhou in China.
    Opned Chiba office.
    Celebrated the 30th anniversary of Mitutoyo Germany.

    1999
    New Gohara Material Plant opened.
    Anjo Sales Office was moved to a new location.
    Utsunomiya Office was certified ISO 14001 Hiroshima Sales Office was moved to a new location.
    Celebrated the 20th anniversary of Mitutoyo Mexico.
    Utsunomiya Office ægMitutoyo Museum" opened.
    Hiroshima Office acquired ISO14001 registration.
    Headquarter and Kawasaki Compound acquired ISO14001 registration.

    1990-








    1991
    Developed a roundness measuring machine named "RA600 Series", provided with analysis software running on a personal computer.

    1992
    Developed an aspheric surface measuring machine named "CV-L246-3D", provided with analysis software running on a personal computer.

    1993
    Developed an interferometer as the standard for gauge block calibration.





    1994
    Developed and started production of non-contact CNC vision measurement machine named "Quick Vision Series".
    Developed and started production of economy-type CNC CMM "Bright Series".
    Commenced production of ABS solar-type Digimatic calipers.

    1995
    Commenced production of ABS Digimatic Indicators.
    Developed a vertically-dual head differential-type gauge block comparetor.

    1996
    Developed compact roundness measuring machine "RA 114/116".
    Developed surface roughness and contour measuring machine "Formtracer SV-C600".
    Developed vision measuring machine "Quick Scope QS series".
    Multi-joint typed CMM Digitizer "Spin arm".

    1997
    CMM with temperature compensation function: "FALCIO Series" provided with analysis software running on a personal computer.

    1998
    Horizontal CNC CMM for in-line measurement: "MACH Series"
    Ulera-high accuracy CNC CMM: "LEGEX"

    1999
    Portable surface roughness tester: Surftest "SJ-301",
    Non-contact laser displacement gage: Laser Indicator "LI-4030N/5030T"




    Company History Product History


    2000
    Founded Philippines Office
    Founded Argentina Mitutoyo
    Founded Vietnam Hanoi Office
    Reorganized Mizonokuchi Development Center to Kawasaki Development Center.
    2000-

    2000
    Digital caliper with built-in absolute scale ABS coolant proof "CD-15GS"
    CS-5000 integrated detector hybrid surface roughness & contour tester
    Flexible measuring gage for workshop use "QM-Measure"
    2001
    Norio Takatsuji was inaugurated as the Deputy Chairman of the Board
    Kazusaku Tezuka was inaugurated as the President
    Founded Shanghai Mitutoyo
    2001
    Integrated display/digital cylinder gage-ABS digimatic cylinder gage "CG-D100"
    Linear scales with absolute encoder "AT500" Series
    CNC vision measuring machines "QVA (Quick Vision ACCEL)" Series
    Compact CNC coordinate measuring machine "Crysta-Plus504"
    2002
    Founded service office in Dong Guan City, Guang Dong Province, China
    Founded Poland Mitutoyo
    Founded Cholburi Office under Mitutoyo Thailand
    Founded Mitutoyo Research Center Europe in the Netherlands
    Founded Mitutoyo Czechoslovakia
    2002
    Released moving-bridge-type CNC coordinate measuring machines "FALCIO-Apex2000/3000" Series
    Released high-speed and high-accuracy CNC coordinate measuring machines "Crysta-Apex" Series
    Released compact vision measuring machines "Quick Vision Elf" Series
    Released manual coordinate measuring machines "Crysta-Plus M" Series
    Released a micro part form measuring system "UMAP Vision System"
    Released 2D vision measuring machines "QUICK IMAGE" Series
    Released roundness contour measuring machine "RA-1500" and hybrid surface measuring machine "CS-3000"
    2003
    Showroom was renamed to M3 Solution Center ('Em Cube' Solution Center)
    2003
    Released world's first CNC form measuring instruments series
    Released digital height gage with built-in absolute scale
    Released IP65 coolant-proof micrometer and IP66 coolant-proof caliper
    2004
    Integrated Akashi Corporation, Meiho Engineering Limited, and Meioh Giken Limited
    Organized the Mitutoyo exhibition in commemoration of 70th anniversary based on the theme of "Innovation for the Future"
    Implemented large-scale corporate reorganization aiming for market-oriented sales system
    Obtained ISO/IEC 17025 Field Calibration Service Certification
    Founded Tianjin Mitutoyo
    Founded Mitutoyo Hungary
    2004
    Released high-throughput inline type coordinate measuring machine "MACH-V" Series Released one-handed operation "Ratchet Thimble Micrometer" Released ultimate ABS coolant-proof caliper "Super Caliper" Released high-performance digimatic indicator "ID-H" Released column-moving CNC surface roughness measuring system "SV-3000CNC" Released world's highest precision measuring microscopes "Hyper MF/MF-U" Released products providing extremely high?output, non-contact CNC vision measuring systems "Quick Vision Stream and Quick Vision Stream Plus" Series Released digital calipers with IP67 protection level "CD-67-PS" series
    2005
    Founded Mitutoyo Indonesia
    2005
    Developed minute form measuring system "NANOCORD-UMAP"
    Released laser scanning micrometer "LSM-500S Series"
    Released large CNC coordinate measuring machine "Crysta-Apex C1600/2000 Series"
    Released horizontal CNC coordinate measuring machine "CarbStrato/CarbApex Series"
    Released ceramic straightness masters "SMC Series" and silent type vibration testing machine "UME200"
    Released handy vibrometer "AHV-1000BU"
    2006
    Consolidation of Mitutoyo and MSTI Corporations
    Mitutoyo Taiwan Established M3 Solution Center CNINA (SUZHOU).
    Mitutoyo Mexicana Established M3 Solution Center Monterrey.
    Tomohide Numata was inaugurated as the Chairman & President.
    Masashi Sakamoto was inaugurated as the Vice President.
    2006
    Gauge Blocks with Thermal Expansion Coefficient Now on Sale.
    Micro-Vickers Hardness Testing Machine HM200 Series Put on the Market.
    Profile Projector PJ-H30 Series Currently on the Market.
    2007
    The ethical behavior criterion of the MITUTOYO group is enacted.
    Mitutoyo Shanghai established Chengdu Office.
    The service divisions of Mitutoyo Suzhou and Mitutoyo Shanghai are integrated, and it becomes Mitutoyo Shanghai (technological service part).
    Masashi Ssakamoto was inaugurated as the President.
    2007
    Released CNC Vision Measuring Machine "Quick Vision" series renewedly
    Released IP 67 "ABS Coolant Proof Caliper"
    Released small roundness measuring machine "Roundtest RA-10" and "Roundtest RA-120"
    Released ultimate digital micrometer "QuantuMike"
    2009
    Toru Nakagawa was inaugurated as the President.




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