Contact us today:
(847) 934-4500
tdaro@bernardandcompany.com
Contact us today:
(847) 934-4500
tdaro@bernardandcompany.com
In this struggling economy, we have clients who’ve actually gone back to Marketing 101 and decided that tough times require more aggressive presence in the market.
Old customers and prospective new ones are being courted more often, both in print ads, direct mail (making a nice comeback as it’s now unique!) and online via blast email, regular newsletters and the inexpensive if rather impersonal vid conference.
The impact of such activity has had the collateral if unintended consequence of making our agency quite busy, this year. So thanks for that, clients!
Much more important is the fundamental tenet of marketing being applied here. They can’t buy from you if they don’t know you’re on the planet, to be blunt.
And, whether they’re currently buying or not, the ones who’ll stay in business are the targets of our messages for clients.
Having lived through four major recessions in business in my time, the theory has been proven true, time and again. Namely, companies who continue to maintain a presence in their market, by whatever means, come back faster and stronger than those who don’t. This is a fact and we have the evidence to prove it, for anyone interested.
TD
Hennig custom enclosures on generators provided through W.W. Williams to huge dairy products processing plant in Michigan.
Machesney Park, IL-On a recent installation at the Ovid, Michigan processing plant of the Michigan Milk Producers Association (MMPA), the standby power generation system supplier, W.W. Williams (WWW) of Dearborn, Michigan, required an increased level of sound and environmental protection on the three generating stations, in accordance with the specs received from their customer’s architectural firm. They turned to their enclosure suppliers for assistance, as the challenges were many. For the complete package, the project was awarded to Hennig. As WWW’s Brunswick, Ohio-based project manager on the job, Al LaManna, puts it, “We’d begun to see Hennig as our go-to guys on enclosures, owing to the continued satisfaction we’d experienced with their levels of quality, engineering and especially responsive service.”
The Ovid facility of MMPA processes over three million pounds of milk per day, specializing in the production of liquid dairy blends, dry powders and bulk butter. These dairy ingredients are offered in spray-dried, liquid, condensed and instantized forms. Fluid products are typically loaded for bulk tanker or 55-gallon drum delivery, while powders are packed in 50 lb. bags, 25 kg bags or one-ton totes. Butter is produced in 25 kg cubes. Such production processes place substantial load on the local utility company’s power generation system and also create ambient dust contaminant challenges for the plant’s equipment.
During the construction process on the three enclosures needed for the standby power generators, extra attention was given to the insulation, silencers and electrical controls for the unit, to ensure proper functioning, sound attenuation and minimized environmental impact. These enclosures and fuel tank assemblies further required additional features, as mandated by the Michigan Department of 
Environmental Quality, including overflow protection valves with a spill box for fuel containment on the remote filling apparatus, fill panel alarm system with level switch, extended vents above the roof line, a special mastic coating on the bottom of the fuel tank and stainless steel fuel supply and return lines.
Following the submission of the complete specification and winning the job, Hennig engineers Christian Grobe and Robin Moore, as well as sales rep Matt Sopchyk, led the team that produced the enclosures at the company’s manufacturing/fabricating facility in Rockford, Illinois. Al LaManna had occasion to visit the plant during the construction and was impressed by the efficiency of the vertical integration. Hennig performs all metal fabrication, finishing and the rigorous testing to UL standards in-house. “Even a midstream specification change by our customer was handled at Hennig with no upset in the production schedule,” notes LaManna.
Founded in Columbus, Ohio in 1912, W.W. Williams has evolved from one of the nation’s largest industrial distribution, repair and service companies to a highly diversified solutions provider. They provide solutions to customers with technical / mechanical service and repair, remanufacturing, warehouse / supply chain management and service a varied customer base. Their products and services include diesel engines, transmissions, heavy duty truck repair, refrigeration, power generation and third party supply chain logistics services. Their customers comprise on-highway trucking, off-highway equipment, Department of Defense OEM’s, vehicle OEM’s, U.S. Military and marine enterprises. The company represents the MTU Onsite Energy group and specializes in gas and diesel engine systems, fuel cell systems, gas turbine systems and gen-drive engines, to provide primary, standby and continuous power.
As Territory Manager for the company, Todd James Rundhaug, observes, “We are constantly looking for quality component suppliers to
complement our MTU Onsite Energy power generating equipment. We began our relationship with Hennig in 2008 and have been extremely satisfied with the quality, workmanship, delivery and especially the after-sales sales support on their enclosures and fuel tanks. Due to a variety of factors, our types of equipment require highly specialized enclosures and UL Rated fuel tanks. The total service package from Hennig on these products has been excellent.” LaManna agrees, noting his customers’ repeat satisfaction with the full package supplied by Hennig. On this Michigan Milk Producers job, Hennig supplied the enclosures, each equipped with a heater, overhead lights, powered louvers, battery back-up lighting with NiCad battery power and GFI wall outlets.
Point man on the job for Hennig Enclosure Systems was Matt Sopchyk, who noted there were three enclosures needed for the onsite generators on this project. Each generator is a 2000 KW unit, with a sub-base fuel tank holding 3480 gallons of diesel. “Hennig design standards for this application included our complete in-house powder coating process for the enclosure walls, doors and roof sections over the all galvanealled steel construction. This job was finished in MTU gray, matching their gensets.”
The UL142 approved steel fuel tanks are finished with a phosphoric pretreatment high-pressure wash and then a 2-step polyurethane process. Hennig enclosures are of a semi-monocoque design, meaning the structural integrity and inner strength are engineered and built into every panel and roof section. This allows for clean and functional design, without the need for separate framing or additional substrate supports of any kind. Also, the Hennig fuel tanks are engineered and built in a similar way, with full interior baffling and sub-structure integrity to support the genset without the need for surface mounted I-beams to support the genset or the need for an additional, costly raised floor above the tank top. The tank top is the floor within the genset.
To learn more about Hennig products & services, visit www.hennigworldwide.com or call contact:
Tim Waterman
Hennig Inc.
9900 N. Alpine Rd.
Machesney Park, IL 61115
(815) 316-5277
info@hennig.ame.com
www.hennigworldwide.com
Connect with Hennig online: 
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Hennig, Inc., at www.hennigworldwide.com, has been designing and producing custom machine protection and chip/coolant management products for state-of-the-art machine tools for over 50 years. Hennig products are designed to protect against corrosion, debris and common workplace contaminants. Hennig has manufacturing facilities in the U.S., Germany, Czech Republic, France, Brazil, India, Japan, China and South Korea. Its North American repair centers are located in Machesney Park, Ill.; Chandler, Okla.; Livonia, Mich.; Blue Ash, Ohio; Mexico City, Mexico; and Saltillo, Mexico.
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Kimray, Inc., an Oklahoma City-based manufacturer of control valves and related equipment for oil and gas producing companies, reports an 83% increase in their machining efficiency, achieved largely as the result of recently acquired CNC production equipment.
Founded in 1948 by Garman Kimmell, Kimray operates a 274,000 sq. ft. facility and employs over 400 people to serve its expanding customer base of oil and gas producing companies. Kimray machines iron, steel and aluminum, as well as thermoplastic materials, to build its comprehensive line of control valves, thermostats, energy-exchange glycol pumps, gas-operated pilots and other process control devices. Their products are used to control vessel and lead line temperatures, liquid level inside pressurized vessels, pressure drops and liquid/gas flow.
The company maintains a turnkey manufacturing facility, including dozens of lathes, grinders, turning, milling, sawing and bore finishing/honing machine tools, nearly all with CNC systems onboard. Originally, two machines were purchased, an Emco Maier EMCOTURN 420 MC PLUS and HYPERTURN 665 MC PLUS Lathes, each equipped with Siemens SINUMERIK 840D CNCs and SIMODRIVE 611D drive packages. As their productivity greatly increased, Kimray decided to purchase two more Emco Maier machines to keep up with increased demand for their products.
The company operates a host system for file storage and back-up on all part production data. As one operator of these lathes observed, “I liked the Fanuc 18i-T CNC we used on other machines in the shop, but, with the SINUMERIK 840D, you can do so much more, such as instant programming and cut and paste operations, while the machine is running or stopped. Each screen allows you to be very detailed about what you’re doing, such as separating your mains from your subs with your part and workpiece programs. I use the Siemens CNC for axis and spindle movements on both machines (Emco Maier 420 Dual Main and Counter spindle Machine and the 665 Main and Counter Spindle Machine). My programs and data can be recessed easily and transferred back to the machines (from the company’s main host system), as needed. I can run my programs out of workpieces and sub-spindles, including milling and stenciling out of the sub-programs. I use the parts program as my way to transfer files and folders to the main system and back again.”
He further commented on the controls, “On a typical set-up, I like the sensitivity of the CNC. Being able to move the axis only a ten thousandth at a time to a hundred thousandth at a time comes in very handy for me. I also like the program test feature, especially on new programs. Each tool has its own geometry page and up to four offsets, making things much less complicated.”
Lastly, regarding the machine builder, this operator noted, “I received lots of good advice and training from the folks at Emco Maier, especially Doug Poling. He’s also assisted me a few times by phone, when needed.”
In the manufacture of its oil and gas production controls, Kimray typically machines bar stock of 303, 304, 310, 316 and 17-4 stainless, as well as D-2 tool steel, 6061-T6 aluminum, brass, Delrin and Teflon. Cast iron, ductile, steel, stainless and aluminum are also machined here. The 83% increase in machining efficiency has been achieved, due to these four Emco Maier machines with Siemens CNCs, according to Kimray sources and company production data.
In determining the increase in overall machining efficiency at Kimray, VP of Operations David Hill commented, “Our commitment to run CNC machine tools has long been in place and the addition of the Emco Maier lathes with Siemens controls onboard are the latest steps in this process. We’ve literally had no problems with these machines, the CNC’s or the drives. When Kimray operators can keep running and producing parts in such a way, the impact on our overall efficiency is immediate and substantial.”
Mike Morris, Kimray’s Plant Engineer, added that “the control is strong and easy for the operators to use”. Over the years, the CNCs have been virtually bulletproof.”
From the builder’s perspective, Emco Maier shares Kimray’s appreciation for the performance of its CNC/drive package supplier.
“Our 420 machine enables simultaneous production of two parts without interruption or collision. The digital drives (Siemens SIMODRIVE 611D) produce dynamic performance in both the main spindle and X/Z axes,” commented the company’s Director of Sales Support Operations for Emco Maier USA. “Plus, programming is just the same as on any CNC lathe. Only one program is generated. The program for the second workpiece is simply transferred to the bottom system by means of a selector switch. No additional programming is necessary. As we like to say, twice as nice.”
The 665 Hyperturn machine enables true 4-axis machining plus full c-axis capability on both the main and counter spindles. The 665 uses some of the same programming features, plus the same digital drive system as the 420, but in a larger package.
For more information on this story, please contact any of the following individuals:
KIMRAY, INC.
Web: www.kimray.com Email: info@kimray.com
EMCO MAIER CORP.
Web: www.emcomaier-usa.com
SIEMENS MACHINE TOOL BUSINESS
John Meyer
Manager, Marketing Communications
Siemens Industry, Inc.
(847) 640-1595
www.usa.siemens.com/cnc
SiemensMTBUMarCom.industry@siemens.com
Follow us on Facebook: www.facebook.com/SiemensCNC or Twitter: www.twitter.com/siemens_cnc_us.
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Siemens Industry Sector is the world’s leading supplier of innovative and environmentally friendly products, solutions and services for industrial customers. With end-to-end automation technology and industrial software, solid vertical-market expertise, and technology-based services, the sector enhances its customers’ productivity, efficiency and flexibility. With a global workforce of more than 100,000 employees, the Industry Sector comprises the Industry Automation, Drive Technologies and Customer Services Divisions as well as the Metals Technologies Business Unit. For more information, visit http://www.usa.siemens.com/industry.
The Siemens Drive Technologies Division is the world’s leading supplier of products, systems, applications, solutions and services for the entire drive train, with electrical and mechanical components. Drive Technologies serves all vertical markets in the production and process industries as well as the infrastructure/energy segment. With its products and solutions, the division enables its customers to achieve productivity, energy efficiency and reliability. For more information, visit http://www.usa.siemens.com/drivetechnologies.
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Several clients have appointed designated hitters for the internet blogs and especially the engineering chat areas of publication websites.
We applaud this action, especially in this economy.
One client said to me, during a meeting where I was encouraging this tactic, “Tim, how can I take a very busy engineer or sales guy away from customers and quoting to play on the internet?”
After I calmed down, I explained to him that:
Seriously, since very little is new under the sun, this is just the new version of that longtime and revered guy at every company, the one people flocked to see at trade shows.
Two quick examples:
We had a client (sadly passed away) who invented polymer quenchants for commercial heat treating. This ancient industry used water and oil, mostly, as it had for literally centuries. People would come to the trade shows and actually wait in line to see the guy. Then, with almost papal severity, he would lean into them, listen to their quenching problem, ponder it for a moment and then put his finger in their chest and say, “OK, here’s what you do…”
We have a current client who runs what is arguably the finest gear company on the planet. He’s also a world-class fly fisherman. He stands in the aisles and goes “casting for customers,” as he says. When he arrives at a show or conference, you’d think Ghandi had walked into the room…with Mother Teresa on his arm! Talk about drawing a crowd. His theory evokes the old John Kennedy line that a rising tide lifts all boats. He actually shows customers, prospects AND his competitors his operation and his p&l. His company currently exports high-precision gears worldwide, including to China!
The internet guru at your company can be a powerful force for growth and a true agent of change for your business and the industry as a whole. Don’t overlook the possibilities or think that it’s just playtime! When a “social” network has a tangible business upside, that’s a game we’d all like to join!
TD
Bertsche iJet waterjet deburring system built for Linamar combines waterjet deburring with part cleaning for one inline system.
Canadian automotive part supplier realizes significant gains with Bertsche-designed multi-function system in its plant
With factory floor space at a premium and capital equipment funds scarce, Linamar, a Tier One Canadian automotive part supplier, turned to Bertsche Engineering recently for an all-in-one part deburring, final rinse and drying solution.
Typically, complex machined automotive parts with multiple intersecting holes require feature-specific part deburring to insure that parts are burr-free. After deburring, parts also need a final cleaning/washing to insure removal of microscopic particles that might adversely affect performance. They are then preserved with a rust or oxidation inhibitor and dried for shipment (transport) to be assembled. Usually, this involves separate pieces of equipment linked by conveyors or robots to transport parts to each machine.
To solve the problem of densely filled factory floor space, Bertsche Engineering developed a machine that handles all these processes in one machine, in one deburring cycle. The machine takes oil and chip contaminated parts, previously machined on CNC milling centers and mill/turn machines, then selectively deburrs critical features using high pressure water, blasting chips out of internal cavities, knocking off all feather-edge burrs and fan washing the outside of the part, using a CNC for full cycle control.
Close-up shows parts infeed and outfeed station, where considerable space savings were realized by the customer, Linamar, a major Canadian Tier One automotive parts supplier.
This process is accomplished by a series of rotating lance nozzles that probe small diameter internal holes in order to blast feather edge burrs clean at intersection points and wash chips out of dead-end passages. External features are then blasted with a series of direct nozzles that release up to 10,000 psi of water at the burr while tracing the part edges. The part is then washed with high-pressure rotating fan nozzles. Note: When required, additional mechanical wire and filament brush tooled deburring stations can be incorporated into the Bertsche system to mechanically remove burrs.
The same machine moves the deburred part to an agitated wash and rinse station, where the part is rinsed, cleaned and preserved with an aqueous rust inhibitor (providing up to 24-day protection) and is finally dried. The part is then ready for final assembly.
Close-up shows parts being indexed over high-pressure (10,000 psi) waterjet nozzles for full wash cycle and rust-inhibiting aqueous coating process
For more information on this application, please contact:
BERTSCHE ENGINEERING CORPORATION www.bertsche.com
PR agency contact: Tim Daro Bernard & Company www.bernardandcompany.com
Release: BERTSCHE ENGINEERING CORPORATION
Date: December 28, 2009
No. 954 is an electrically-heated 2000°F(~1093°C) inert atmosphere heavy-duty box furnace from Grieve, currently used for heat treating titanium at the customer’s facility. 57 KW are installed in nickel chrome wire coils, supported by vacuum-formed ceramic fiber, to heat the load. Workspace dimensions are 30” wide x 48” deep x 30” high. The oven’s 7” thick insulated walls comprise 5” of 2300°F ceramic fiber and 2” of 1700°F ceramic fiber, while the 6-1/2” floor insulation comprises 4-1/2” of 2300°F firebrick and 2” of 1200°F block insulation.
The unit is equipped with a roof-mounted heat-resisting alloy recirculating fan, powered by a 1-HP motor with V-belt drive, motor-operated vertical lift door, 100 lb. capacity alloy loading cart with cast alloy roller rails, 3-1/2” diameter cast alloy rollers and a roller rail loading table with 4” diameter cast iron rollers.
This Grieve furnace also features inert atmosphere construction, consisting of a continuously welded outer shell, high temperature door gasket, sealed heater terminal boxes, inert atmosphere inlet, inert atmosphere outlet and inert atmosphere flowmeter.
Controls onboard No. 954 include a digital programming temperature controller, manual reset excess temperature controller with separate contactors, plus a strip chart recorder.
For more information, please contact: THE GRIEVE CORPORATION, Web: www.grievecorp.com.
Agency contact: Tim Daro, Bernard & Company
NEWS RELEASE: THE GRIEVE CORPORATION
DATE: December 21, 2009
Automated loading and parts handling system complement state-of-the-industry laser and machine control technology
Han-Kwang USA announces immediate availability of its new Model TL 6015, a tube cutting laser system capable of handling 24’ long, 6.5” diameter workpieces up to 1/4” wall thickness in mild steel and 0.200” in stainless steel. Equipped with a powerful 2.5KW Panasonic laser and a versatile Siemens 840D CNC to control all functions of the machine, the TL 6015 can significantly increase the tube production in any department or shop, especially when used with Han-Kwang’s proprietary “Flex 3D” tube cutting software . The unit comprises an automatic bundle loading system with tube V-support, auto-centering rotary chucking system, laser cutting station and automatic parts removal station.
Maximum positioning speed on this new laser system is 4700 ipm for the X-
axis and 120 rpm for the rotary A-axis. Max acceleration rate is 1G, while the laser beam is precisely controlled by the unique Han-Kwang Auto Focus Control (AFC). This AFC technology allows the machine to automatically adjust the focal length of the cutting lens to accommodate variations in the materials being processed or changes in material feed, which eliminates the downtime normally associated with manual adjustments.
A new generation of sensing board in the S5 laser cutting head on the TL 6015 translates into faster cutting speeds on round, square or rectangular shapes.
In a recent design modification, the entire loading section of the machine has been enclosed, as depicted in the attached illustration.
For more information or to arrange a demonstration, please contact:
HAN-KWANG USA INC. Phone: 630-916-0200 Web: www.hankwang.com
Agency contact: Tim Daro Bernard & Company tdaro@bernardandcompany.com www.bernardandcompany.com
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Improves efficiency and bearing reliability on industrial compressors and other applications; positive locking WITHOUT washers and keys; supports extreme thrust loads
Advanced Machine & Engineering Co., (AME) Rockford, IL provides its unique Spieth locknuts for accurate rotor positioning and reliable thrust bearing retentionon compressors, shafts, spindles and other industrial/commercial applications, in a unique engineering achievement.
In a compressor application, for example, the locknut can play a key role in establishing the clearance between the rotor and the compressor housing, where too little clearance causes seizure, while too much reduces compressor efficiency, due to leakage around the rotor body.
While the standard Spieth locknut configuration had considerable appeal for the application, several design refinements were deemed highly beneficial for this application. “We liked the positive locking feature without washers and keys, plus the locknut’s ability to support extreme thrust loads by providing full 360º contact around the thread flanks,” according to one application engineer contacted for this story.
Key features that led to one compressor manufacturer’s selection of the Spieth product from AME included:
The full circumference contact of the Spieth locknut was designed to ensure the locknut would not back off, even when subjected to extreme shock loads. It further aligns its contact face with either a zero runout or, as needed, it can be adjusted to suit the inaccuracies of the in-line connecting components, thus compensating for minor errors of parallelism due to the stack-up of mating parts. Uneven bearing loading is thus compensated and its impact minimized.
The basic design of the Spieth adjustable locknut involves two axially arranged radial grooves, one from the outside and one from the inside, which result in a diaphragm-like cross-section to give the locknut a predetermined axial elasticity. The internal groove divides the locknut into a clamping and a locking section. Depending on the nut size, multiple axially arranged socket head set screws are used to clamp the sections together. This eliminates the thread flank clearance between the rotor and the locknut, allowing for shockproof clamping.
In installing the locknuts, a consistent tool torque setting was found sufficient to achieve parallel locknut body and threads. Thus, the face of the thread flank and centerline of the shaft were always in ideal alignment. This was done to provide a square thrust collar for thrust bearing reliability and rotor positioning.
Other applications for Spieth locknuts typically include shaft and spindle retention on bearings, where displacement, axial preload and clearance issues are critical. The unique design of this locknut ensures no back-off, even when subjected to extreme shock loads. In machine tool and heavy equipment use, for example, spindle runout due to uneven bearing loads can be eliminated, due to the full 360º contact around thread flanks. Spieth heavy-duty locknuts can be used with needle and roller thrust bearings, plain thrust bearings or taper roller bearings on ballscrews, worm drives, bevel gears and other high-thrust carrying components.
For technical questions on this article, please contact Shane Hatfield (shane@ame.com) at AME.
Advanced Machine & Engineering Co., is a manufacturer located in Rockford, IL, serving the Machine Tool Industry with precision components and accessories, including spindle interface components, workholding devices, and, through our sister company, Hennig, machine enclosures, chip removal and filtration systems. The Fluid Power – Safety markets are served with cylinder rod locks and safety catcher devises; and the Production Saw market with our Amsaw carbide saw machines and Speedcut blade products. AME has manufacturing partners and customers around the world and across the U.S. To learn more, visit www.ame.com.
Hennig, Inc. design and produces custom machine protection and chip/coolant management products for state-of-the-art machine tools. Hennig products are designed to protect against corrosion, debris and common workplace contaminants. Manufacturing facilities located in the U.S., Germany, Brazil, India, Japan, China and South Korea. Repair centers are located in Machesney Park, IL; Chandler, OK; Livonia, MI; Blue Ash, OH; Mexico City, Mexico and Saltillo, Mexico. To learn more, visit www.hennigworldwide.com.
For more information, contact:
Tim Waterman
ADVANCED MACHINE & ENGINEERING CO.
2500 Latham St.
Rockford, IL 61103
Phone: 815-316-5277
Fax: 815-962-6483
E-mail: info@ame.com
Connect with AME online: 
No. 1018 is an electrically-heated, 500º F (~260ºC) three-zone belt conveyor oven from Grieve, currently used for drying ceramic parts. Workspace dimensions are 18” wide x 40’ deep x 18” high. 180 KW (60 KW per zone) are installed in Incoloy-sheathed tubular heating elements, while three 3-HP recirculating blowers (total 12,600 CFM) provide vertical downward airflow to the workload. The oven was split into three sections for shipment.
The unit contains a 12” wide, 1/2” stainless steel flat wire conveyor belt with 1/3-HP motor drive, variable from 2 to 30 inches per minute and has a 30” long open belt loading zone and a 60” long open unloading zone.
This Grieve conveyor oven features 4” insulated walls, aluminized steel exterior and Type 304, 2B finish stainless steel interior, three independent doors for access to the workspace, three 325 CFM powered forced exhausters and the unit was built to NEMA 12 electrical standards. It has disposable fresh air filters in each zone, including photohelic pressure gauges with alarms.
Controls onboard No. 1018 include SCR power controllers and independent recirculated airflow and temperature controls for each of three 162” insulated heat zones.
For more information, please contact: THE GRIEVE CORPORATION, 500 Hart Road, Round Lake, Illinois 60073-2835 USA. Phone: (847) 546-8225. Fax: (847) 546-9210. Web: www.grievecorp.com. Email: sales@grievecorp.com. Attention: Frank Calabrese.
NEWS RELEASE: THE GRIEVE CORPORATION
DATE: November 23, 2009.
Agency contact: Tim Daro 847-934-4500
No. 837 is a 1450OF electrically-heated tempering furnace from Grieve, currently used for pre-heating prior to welding and various post-welding heat treatments, at a customer’s facility.
8” thick insulated walls comprise 3” of 2300OF ceramic fiber and 5” block insulation, while 7” floor insulation is made from 5” of 2300OF firebrick and 2” of block insulation. No. 837 features an air-operated vertical lift door, as well as numerous safety and control components, including a programming and recording temperature recorder, SCR power controller, manual reset excess temperature controller with separate contactors and a recirculating blower airflow safety switch.
For more information, please contact:
THE GRIEVE CORPORATION
500 Hart Road
Round Lake, IL 60073-2898
Phone: (847) 546-8225
Fax: (847) 546-9210
Web: www.grievecorp.com
Email: sales@grievecorp.com
Attention: Frank Calabrese, VP