Ultra 6000 Digital Ultrasonic Cleaner

Ultra 6000 Digital Ultrasonic Cleaner

Some cool precision engineering services images:

Ultra 6000 Digital Ultrasonic Cleaner

Image by tudedude
I’m quite pleased with this cleaner Not pleased with the Organization I 1st bought it from – but the importer/wholesaler supplied excellent service and replaced my Initial Faulty one particular.

So &quotThank you&quot James Products Ltd (importer/wholesaler)

No thanks to &quotBest Ultrasonic Cleaners&quot

Steven F. Udvar-Hazy Center: Boeing B-29 Superfortress “Enola Gay” (nose view)

Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Boeing B-29 Superfortress &quotEnola Gay&quot:

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of Planet War II and the very first bomber to property its crew in pressurized compartments. Despite the fact that created to fight in the European theater, the B-29 identified its niche on the other side of the globe. In the Pacific, B-29s delivered a range of aerial weapons: traditional bombs, incendiary bombs, mines, and two nuclear weapons.

On August six, 1945, this Martin-constructed B-29-45-MO dropped the very first atomic weapon used in combat on Hiroshima, Japan. 3 days later, Bockscar (on display at the U.S. Air Force Museum close to Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance weather reconnaissance aircraft that day. A third B-29, The Fantastic Artiste, flew as an observation aircraft on both missions.

Transferred from the United States Air Force.

Manufacturer:
Boeing Aircraft Co.
Martin Co., Omaha, Nebr.

Date:
1945

Country of Origin:
United States of America

Dimensions:
All round: 900 x 3020cm, 32580kg, 4300cm (29ft six five/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Supplies:
Polished all round aluminum finish

Physical Description:
Four-engine heavy bomber with semi-monoqoque fuselage and high-aspect ratio wings. Polished aluminum finish overall, regular late-Globe War II Army Air Forces insignia on wings and aft fuselage and serial number on vertical fin 509th Composite Group markings painted in black &quotEnola Gay&quot in black, block letters on lower left nose.

The Nano Class – The Newest Ultrasonic Sensors from Microsonic Provide Expectional Overall performance in an Ultra-compact Housing

The Nano Class – The Newest Ultrasonic Sensors from Microsonic Provide Expectional Overall performance in an Ultra-compact Housing


Troy, Michigan (PRWEB) September 09, 2014

The demands placed by industry on sensors and their companies are developing continuously – and ultrasound technology gives options to meet these demands, for virtually each conceivable application. As a leading manufacturer of ultrasonic sensor technologies, and with patents pending on a quantity of specific developments, this article appears at how challenging applications can be solved by microsonic’s business-top ultrasonic sensor technologies.

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The trend towards miniaturisation while delivering maximum sensor overall performance indicates fantastic expectations are being placed on ultrasonic sensor companies. Microsonic has risen to the challenge of manufacturing sensors to meet and exceed these demands. microsonic, the ultrasonic sensor specialist, has just launched its new nano class developing on the proven efficiency of their compact class. The new nano is the shortest M12 ultrasonic sensor on the market.

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What is reflected is also detected! &#13

In comparison to optical sensors (which detect light-reflecting/light-impenetrable objects) or inductive &#13

sensors (which recognise only ferromagnetic metal components), ultrasonic sensors can be applied to applications with practically no restrictions. Ultrasonic sensors detect nearly all sonically reflective supplies with out speak to and can be employed with nearly every fluid, gas, film, material or coarse-grained parts, chippings, fine sand as well as the thinnest of cables. These sensors provide higher measurement-precision in ranges of up to 15m. Even in dirty environments exactly where sensors are topic to particulate matter in the air and disruptive extraneous light, ultrasonic sensors can detect the intended object. Sound-absorbent objects can be detected with a two-way ultrasonic barrier, utilizing a fixed reflector.

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The high sensitivity of the Nano ultrasonic sensor will enable for detection and measurement of virtually every conceivable material and its robust building makes these ultra-compact, ultrasonic sensors the best sensor for virtually each industrial application.

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How do ultrasonic sensors function?&#13

1.    The normal ultrasound measurement principle, Echo Runtime Measurement, is applied in ultrasonic distance sensors and ultrasonic proximity switches for presence detection and distance measurement. An ultrasonic sensor emits a cyclical higher-frequency acoustic pulse which transmits by means of the air at the speed of sound. When it meets an object, it is reflected and the echo returns to the sensor. The interval among the emission of the ultrasound and the reception of the echo, is used to calculate the distance to or presence of the object.

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2.    Some applications require specific measurement strategies such as amplitude evaluation. Throughout ultrasonic sampling, the strength with which the signal is received provides details about the position or composition of the material, located amongst the sender and receiver. These measurement methods are utilized for applications such as double-sheet manage, label and splice applications or in web edge monitoring.

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Examples for the industrial application of compact ultrasonic distance sensors:&#13

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The positioning of wafers in the semi-conductor market&#13
Fill-level measurement in little containers&#13
Wire-break monitoring&#13
Sampling of little bottles in the packaging business&#13
Presence checking&#13
Detection of PCBs in the electronics business&#13
Detection of stoppers in bottles&#13
Detection of packaging&#13
The monitoring of moistening agents in printing machines&#13
The counting of tiny objects on the conveyor belt&#13
Sheet detection on paper-processing machines&#13
Detection of glass panes&#13
Micro crack checks in the textile sector&#13
Volume flow control for bulk material&#13
Loop control &#13
Robot gripper arm positioning&#13
Diameter measurement of modest coils

… and even more intelligence with the IO-Link&#13

microsonic ultrasonic sensors serve all conventional interfaces, such as the interface of the future: IO-Hyperlink. The IO-Link interface enables the genuine-time, comprehensive and bi-directional transmission of measurement values, method information and service data among the control technique and the sensor. This technologies applied to sensors enables the simplification of commissioning, operation and maintenance of machines or systems the improvement of performance and availability the optimisation of process flows and the application of sensors in ever-a lot more application regions.

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IO-Link connects the sensor with an IO-Hyperlink master via a normal 3-conductor sensor cable of up to 20 m in length. An IO-Link master is equipped with one particular or far more inputs and outputs to which an IO-Hyperlink device can be connected. Full compatibility with SIO mode (Regular IO mode) enables mixed operation. A number of sensors can be operated on a single master in IO-Hyperlink and SIO mode.

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As an intelligent communications interface, IO-Hyperlink brings a number of advantages in comparison to other systems (such as the standard direct cabling) in terms of automation technologies, and will offer the base for revolutionary developments more than the coming years:

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The 1st IO-Hyperlink capable sensor from microsonic was the pico+, ideally-suited to applications in the production of glass bottles, complete and empty crate manage or the sampling of empty PET bottles on a conveyor belt.

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Here are some of the extra innovations obtainable from microsonic:

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pico+ – compact form with 90° angular head, multiplex operation, IO-Hyperlink interface&#13

pico+-ultrasonic sensors are a compact sensor with a M18 threaded physique and a housing length of only 41 mm. In addition to the axial beam direction, a housing variation is obtainable with a 90° angular head and radial beam direction for unique applications. With 4 detection ranges between 20 mm – 1.three m and 3 different output stages, the sensor family covers a broad spectrum of applications. Automatic synchronisation and multiplex operation enables the simultaneous operation of up to ten sensors in the most confined of spaces.

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zws – rapidly measurements with higher machine speeds and in the smallest of gaps&#13

With its detection range between 20 mm and 1 m and the switching and analogue outputs, the microsonic zws comes with a cuboid housing the type of the housing and its installation are compatible with a quantity of optical sensors. This facilitates the effortless changeover to ultrasonic sensors in vital applications. With a switching frequency of up to 250 Hz, the zws 7 is ideally suited for applications requiring quick sampling. With its optional “SoundPipe”, a waveguide attachment, it can also be utilized for specifically challenging measurement tasks such as counting at higher speeds and it can measure filling levels in the smallest of apertures – a typical application is the level measurement in microplate “wells” as employed in healthcare analysis applications.

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sks – the highest of precision and an option to optical sensors &#13

The sks sensors had been previously the smallest ultrasonic sensors offered by microsonic and in comparison to the zws, present a 33 percent smaller housing volume. The sks is ideally suited for sampling printed circuit boards and wafers in the electronics industry or packaging machines on which transparent or hugely-reflective films need to have to be recognised. In addition to its very modest housing dimensions, with two M3 screw bushings for fastening, they have identical kind and match with a quantity of optical sensors they thus provide a true alternative for use in crucial applications. The sks measures with .1 mm resolution, thereby guaranteeing the highest of precision.

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*New*: The Nano – The smallest ultrasonic sensor in the globe&#13

With a total length of only 55 mm including connector, the new Nano from microsonic is the shortest M12 ultrasonic sensor offered on the market. The smallest of its sort in the planet, it offers two detection ranges: 250 and 350 mm, offered with analogue or switching output.

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microsonic goods and options are obtainable in North America through TR Electronic

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TR Electronic&#13

customercare(at)trelectronic(dot)com&#13

USA: 800-709-3300&#13

CANADA: 800-265-9483

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Associated Higher Precision Machining Press Releases

Omegasonics Introduces Ultrasonic Cleaning for 3D Prototyped Parts

Omegasonics Introduces Ultrasonic Cleaning for 3D Prototyped Parts


Simi Valley, CA (PRWEB) August 25, 2014

Omegasonics, a leading manufacturer of ultrasonic cleaning systems, announced today the introduction of two ultrasonic cleaning units for use with fuse deposition modeling (FDM) 3D parts.

The 1900 BT and the SST4030 utilize precision ultrasonic technology to accurately and methodically remove all support material from 3D prototyped parts, one layer at a time. These innovative units effectively clean ABS, polycarbonate, polycarbonate-ISO, Nylon 12, and PC-ABS parts, regardless of a part’s geometry and complexity.

“Our engineers have been working for some time with one of the top 3D printing equipment manufacturers to develop ultrasonic cleaning units that deliver superior parts cleaning,” said Frank Pedeflous, President of Omegasonics. “The advanced technology of our 3D ultrasonic cleaners help make the prototyping process more cost effective and allows manufacturers to get ideas to market faster than ever.”

The new Omegasonics cleaners are fast, easy to use, and designed for the office environment. They are designed with all solid state components, Plug & Play construction, and require no regular maintenance. A stainless steel parts basket with a unique lid ensures that parts are fully submerged in the ultrasonic bath for maximum cleaning throughout the entire cleaning cycle.

Other features include:


    User-friendly illuminated control panel
    Digital temperature control
    Digital timer controlled ultrasound
    Large tank capacity
    Stainless steel drain valve
    Insulated tank for reduced noise
    And more

No other existing process removes support materials from 3D prototyped parts as quickly, easily and precisely as the Omegasonics1900 BT and the SST4030 ultrasonic cleaning units.

About Omegasonics

Omegasonics, the West Coast’s leading manufacturer of ultrasonic cleaning systems, designs and manufactures a complete line of ultrasonic contents restoration cleaning systems, biodegradable cleaning agents, supplies and accessories. Additional info about the company is available at http://www.omegasonics.com or at their blog, “Mighty Bubbles,” at blog.omegasonics.com.






Related Precision Parts China Engineering Press Releases

Ultrasonic Deburring In Precision China Machined Parts

Ultrasonic Deburring In Precision China Machined Parts

Precise surface and edge finishing are essential factors in parts China machining with individual finished parts directly affecting the successful performance of the whole machine. The edge quality of parts can be particularly essential to the smooth operation of the whole. During the molding, welding, and metal cutting processes burrs are always present. Burrs are defined as unwanted projections of the metal or other material that extend beyond the edge of the part or piece that must be removed by some method in order to attain a perfectly smooth edge.

A number of methods for deburring are commonly used including filing, sanding, brushing, barreling, chemical and thermal energy methods. Depending on the material used, the application of the part, and the precision required there can be advantages and disadvantages of any of these methods. Many of these deburring processes can be useless for difficult-to-access burrs and thick metallic burrs occurring on high strength alloys and composites. Thermal energy and electro-chemical deburring methods may be successful for these purposes, but they carry serious safety and health risks that must be considered. Other limitations of electro-chemical deburring methods may be the need for the material to be electrically conducive. Though these disadvantages are not present when using deburring machines, the machines may not be able to remove difficult or inaccessible burrs. Additionally, chemical or mechanical deburring methods can be damaging to very small parts such as computer parts and precision screws.

An ultrasonic deburring method has been developed to address these difficult and hard to remove burrs and burrs on small, sensitive parts. It uses high-energy shock waves within a compounded acid slurry or a water bath with fine abrasives added to bombard the piece. The abrasive micro-jet cutting action can successfully deburr metals to result in a finely finished surface. This process can be used on a variety of metals such as stainless steel, aluminum, copper, chrome, and nickel. It is effective in deburring precision gear teeth, needle ends, and otherwise inaccessible areas of China machined parts. Ultrasonic deburring methods are particularly suited to the removal of micro-burrs on precision molded parts.

In addition to deburring, ultrasonic methods can also effectively remove rust from iron composed parts and difficult to remove stains from external and internal surfaces. With increasingly demanding specifications for precision and cleanliness in parts, deburring methods have had to improve and develop to meet these demands. Ultrasonic deburring is being further refined as other methods are yet to be developed.

COAST METAL CUTTING (http://www.coastmetal.com/) offers a complete China machining and metal cutting service.

More Precision China Machined Parts Articles