Position Partners opens new national HQ

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On May 14, Position Partners – Australia’s largest distributor of precision positioning systems – opened its new national headquarters in Melbourne.

 
 
 
Nobuo Ichiki at the opening of the new Position Partners headquarters

 

Before a crowd of 250 customers, suppliers, OEM representatives and staff from around Australia, the company’s new purpose-built facilities at 7 Transit Drive, Campbellfield, were opened by Nobuo Ichiki, Senior Manager Positioning Business Unit, from Topcon Japan, and Mark Contino, Topcon Positioning Systems US-based Vice President of Sales Surveying & GPS.

“Our new national headquarters are the culmination of a process that began over 18 months ago, when Australia’s independent Topcon dealers decided to join forces and form Position Partners,” said Brian McLoughlin, the company’s NSW/ACT manager, and one of its founding directors.

“As a result of that decision, we now have Australia’s largest and most experienced supplier of Topcon precision positioning systems – and we are the world’s second largest distributor of Topcon products.

“We are recognised by our customers as providing the industry’s best – bar none – levels of service, support and product knowledge, backing up their investment in Topcon products and systems – the world’s leading supplier and developer of advanced positioning and machine management systems,” he said.

Position Partners offers:

  • Full sales, service and support operations in every Australian mainland state capital, including Darwin
  • The industry’s largest network of mobile service vehicles
  • Accredited Topcon service facilities in every branch
  • Unmatched product knowledge and experience in fitting, servicing and advising on machine control, survey systems, laser products and machine management systems.

“Despite the downturn in the industry, we are continuing to expand our business, offering our customers the opportunity to reduce their costs and increase productivity with innovative new products and services,” said Brian.

“At the same time as we opened our new Campbellfield headquarters, we’ve also launched the new Topcon Tierra equipment management system in Australia – and we see enormous potential for this product offering over the next few years.

“Our aim is to be partners in productivity with all our customers – and we are well on track to achieving this core vision for the industry,” he said.

Exciting Times for Topcon Precision Agriculture in Australia

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Press Release 14th January, 2009

The past 12 months has seen a global trend towards consolidation in the Precision Agriculture manufacturing sector, with numerous mergers and buy outs being announced throughout 2008. Due to its comparatively early acquisition in 2006 of Australian based company KEE Technologies, Topcon Positioning Systems Inc. is already in a position to reap the rewards of its forward thinking business approach with the launch of its new range of Topcon Precision Agricultural solutions.

Topcon Positioning Systems, developer and manufacturer of positioning equipment, offers a world leading selection of innovative precision GPS, GIS, laser, optical surveying and machine control products, software and applications. Topcon has been supplying the agricultural market positioning hardware and software technology for over 12 years worldwide in the areas of data acquisition and management, machine control, precision land leveling, mapping and water use management.

Since the KEE Technologies acquisition in 2006 its original facility and staff in South Australia have become the Topcon Technology Center, the global base for the development of Topcon Precision Agriculture (TPA) next generation agricultural technology and solutions. The decision to incorporate KEE Technologies staff and their 25 years of experience in agricultural electronics and applications has enabled the rapid development of the new Topcon Precision Agriculture range to be launched in Australia in January 2009.

A key component in the new range is Topcon’s World’s First Paradigm G3 triple constellation satellite receiver chip allowing agricultural users for the first time to receive signal from all available satellites, (GPS, GLONASS and Galileo), and into the foreseeable future. The total number of satellites available to owners of new Topcon Precision Ag systems will exceed 80 once all Galileo satellites are in service.

In preparation for Topcon’s proactive push into the Australian agricultural marketplace in 2009, it has aligned itself with Position Partners as its distributor for NSW and QLD. The company Position Partners was created in July 2008 through the Topcon Positioning Systems network of major independent Australian dealers joining forces. Coming together to form Position Partners are ABC Lasers (QLD), Laserquip (NSW/ACT), Laser Beams (VIC/TAS), Ross Instruments (SA/NT) and Stadia Instruments (WA). This has created the country’s largest and most experienced precision positioning business and also one of the largest Topcon distributors in the world –with a new national headquarters in Melbourne and a staff of more than 130 people throughout Australia.

Position Partners will host a series of road show demonstrations and presentations to launch the new Topcon range of Precision Agriculture technology in key rowcrop and broadacre regions during February and March across QLD and NSW. The Topcon Precision Agriculture Road show will introduce growers, agronomists, industry associations, grower groups and key stakeholders to the latest Topcon developments in Auto-steering, GPS Land Leveling, Variable Rate Spray and Fertiliser Applications, Spray Boom Section/Height Control, Mapping and Farm Management Software.

For further details on the Topcon Precision Agriculture Road show locations and dates contact Felicity White (QLD): M. 0437 438 801; E. fwhite@positionpartners.com.au or Patrick Boyle: M: 0402 790 391; E: pboyle@positionpartners.com.au

 

About Topcon Positioning Systems

Topcon Positioning Systems, INC., Livermore, Calif., is a worldwide leader in the development and manufacturing of precision positioning product. Its innovative GNSS technology was the world’s first to offer triple-constellation satellite tracking: GPS,GLONASS and Galileo. Its wide selection of precision technology includes laser, optical, imaging and machine control products for agricultural, construction, surveying, GIS and many other applications. Topcon Corporation is traded on the Tokyo Stock Exchange (7732).

Automating your World: Getting the last millimetre with machine control

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Welcome to the fourth Automating your World column, a series of advice articles by Position Partners technical experts. In this series of articles, we look at the various aspects of machine control solutions.


A high-accuracy 3D grade control system showing the combined
GNSS antenna and laser receiver.

In the previous column, we looked at how single-antenna, twin-antenna and dual-mast GNSS (Global Navigation Satellite System – a generic term for all satellite positioning systems, including GPS)) grade control systems compared to each other and which application each was best suited for.

GNSS-based 3D grade control systems have made a major impact on how heavy construction is done, but they still have limitations when it comes to achieving very tight vertical accuracies.

This is true regardless of which brand you use.

And, while triple-constellation (GPS, GLONASS and Galileo) grade control systems will be able to work in more places and under more adverse conditions, they are still subject to the various orbital errors and environmental factors, which degrade the vertical accuracy somewhat.

Now, there are many examples of contractors who use GNSS exclusively for all their earthmoving tasks and even finishing. However, the manufacturers of these systems will tell you that they cannot guarantee the vertical accuracy will be good enough for finishing.

So, what to do?

GNSS and Lasers

The various GNSS systems will give you a horizontal accuracy that is pretty much good for any earthmoving and grading task. The challenge is to find a way to improve the vertical portion of your position.

It is possible to combine the GNSS position with a terrestrial vertical reference such as a rotating laser. Such a system will use the GNSS signal to position the grader horizontally and the laser signal to get a very accurate vertical position – to within a few millimetres.

There are two ways this can be done:
1.    By using a conventional, construction-grade laser
2.    By using a purpose-designed, “fanned-beam” laser.

With a conventional laser, you have the benefit of being able to use the laser you already own, but you will be limited to working within a vertical range that cannot be wider than the physical length of the laser receiver you put on the grader.

What this means is that, if you have a laser receiver on the grader which is physically 1 m long, then you must keep your grader working within ±50 cm from the height at which the laser is set up.

If your grader travels further than 50cm vertically, you will lose the laser signal.

The other way to solve this is to use a fanned-beam laser


A fanned-beam laser set up on a job site.

Instead of sending out a single plane of light like a standard grade laser, this laser sends out a “fanned” beam that lets the operator work to high vertical precision within a 10 m elevation range.

A fanned-beam laser will also let you use a “normal” sized laser receiver on your grader, which is far less susceptible to failure from mechanical shock and vibration.

No matter which solution you choose, a combined GNSS/laser 3D grade control system is incredibly versatile.

For most of your earthmoving tasks GNSS alone will be good enough, but when you need to tighten up your vertical, you simply pull out your laser and finish the job with that.

A strong selling point for these systems is that an unlimited number of machines can run off of a single laser. This not only lowers the cost of achieving high vertical accuracy, it also reduces the potential for set-up errors, because all machines are working from the same laser.

If you have five graders with GNSS systems already on them, you may well only have to purchase two additional laser add-ons, since they can easily be shared between all the graders.

One thing to be aware of with such a combined GNSS/laser system is that you are now faced with maintaining two lines of sight to your grader: One from the GNSS antenna to the satellites and one from the laser receiver on the grader to the rotating laser on the job site.

However, the benefits of the combined GNSS/laser system far outweighs this detail and you will find that with proper site planning and management, disruption stemming from people, other equipment, vehicles or trucks breaking the line of sight will be kept to a minimum.

Robotic Total Stations

Another way that 3D grade control systems achieve high vertical accuracy is to use a robotic total station as the positioning device. In fact, this is older technology than the above-mentioned GNSS/laser systems.


Robotic total station and grader with the robot target mounted on the mast

This system does not make use of satellite signals for positioning at all and can therefore also work indoors or in places where there is a severe obstruction of the sky, such as directly underneath an overpass or underground.

A robotic total station automatically tracks a target mounted on a mast on the blade of your grader, placed where you would otherwise mount the GNSS antenna.

Because the total station always knows where it is in the local co-ordinate system, it will also know where the target (that is, your grader) is at all times – simply by locking onto the target and following it.

The robotic total station feeds the 3D position of the target to the control box in your grader many times per second via a radio link.

These positions are then used by the onboard computer to determine cut/fill for where the blade is at a given moment, in exactly the same manner as a 3D position derived from GNSS would be used.

These systems are highly accurate and have been field-proven for more than a decade.

Although outnumbered by GNSS systems in the field, the ability to work underground and indoors will ensure that these systems will be around for a long time to come.

However, as with a combined GNSS/laser system, you must maintain clear line of sight between your grader and the robotic total station tracking it.

But, in contrast to the combined GNSS/laser system, the total station can only track a single target at a time, so this set up requires a dedicated robotic total station for each machine.

Choosing your system

The various positioning technologies available for 3D grade control systems today have all come about because they each solve a particular problem and are particularly well suited for a specific application.

It is unlikely that a single positioning technology will solve all the earthmoving and grading tasks faced by your company, so it is important that you stay educated about the various solutions currently available.

For many contractors, the ease with which various sensor technologies can be switched around is paramount  – so ensure you speak to your positioning system sales representatives to ensure you have the maximum flexibility from whatever solution you choose.

Something else to look for is a consistent operator interface between different positioning technology, so the operator screen remains unchanged and familiar no matter which type of positioning is currently being used.

That means shorter learning curves, and the ability for operators to very quickly switch from one type of system to another.

Speak to your sales representative not only about which system is right for your particular job, but which systems are right for your company across your full range of work and projects.

Advanced technology is great, but it is essential it be combined with competent and timely local support in order to be of most value to you, and to help you sort out problems and issues.

Grade well, grade quickly.

 

 

Position Partners wins Topcon global dealer awards

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At the recent Topcon Positioning Systems dealer conference in San Francisco, Position Partners won four out of 20 global awards at the company’s annual global dealer awards presentation.

Topcon distributor awards

Successful Position Partners dealer representatives and senior Topcon Positioning Systems executives with their sales awards. From left, Murray Lodge, TPS; Jamie Williamson, TPS; Matt Brown, Position Partners Victoria; Mike Forrest, Position Partners Queensland; Harry Katsanevas, Position Partners Queensland; Ray O’Connor, TPS President; Mark Contino, TPS.

These awards were for the best-performing Topcon global distributors and dealers, and were as follows:

Top 10 sales award for survey products

  • Position Partners Queensland (formerly ABC Lasers)

Top 10 sales award for construction products

  • Position Partners NSW (formerly LaserQuip)
  • Position Partners Victoria (formerly Laser Beams)
  • Position Partners Queensland (formerly ABC Lasers)

“Our success in winning these awards reflects Position Partners’ hard work, dedication and commitment to delivering product sales and customer service to our customers,” said a company spokesperson.

“These awards demonstrate on a global scale that we measure up to and exceed similar organisations by a significant margin.

“We are now positioned as one of Topcon largest distributors to build on these awards and I look forward to each of our state operations building on our strong foundations in taking us as one combined national organisation to the next level,” said the spokesperson.

Victoria’s Matt Brown inducted into Topcon’s President’s Club

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Matt Brown, Machine Control Manager with Position Partners’ Victorian branch, has been inducted into Topcon Positioning Systems’ President’s Club. 

Matt Brown award winner

  From left, Jamie Williamson, Topcon Positioning Systems Senior Vice President
for Sales and Marketing; Matt Brown, Position Partners; and Ray O’Connor, president
of TPS with Matt following his induction into Topcon’s President’s Club.

This is a prestigious award made by TPS for high achievers and future industry leaders and is awarded on merit and performance.

As a member of the exclusive Topcon President’s Club, Matt joins a small but elite group of people from TPS and its global distribution organisations in shaping and directing the future of Topcon products, customer service and marketing direction.

Our warmest congratulations to Matt on this outstanding achievement.

Topcon excavator system helps owner-operator double his income

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Melbourne-based excavator owner-operator Noel Power has recently switched from hourly hire to contracting – and doubled his income – thanks to Topcon’s X63 GPS system on his Kobelco SK350-LC excavator.
Noel, who carries out drainage, boxing roads and wetlands works, primarily contracts to leading Melbourne contractor Winslow Contractors.

  Noel Power and his excavator fitted with Topcon’s X63 3D GPS system.
  • Customer: Power Excavations, Melbourne, Victoria
  • Topcon systems: Topcon X63 3D GPS excavator control system
  • Applications: General civil construction projects.

When he first bought his excavator, about three years ago, Noel did only hourly hire work.
“But then I got the opportunity to go into contract work with Winslow, and it was a bit of a big step, but it’s actually worked out pretty good so far,” he said.

“They’ve given me the contract mainly because of the Topcon system. That’s because they can trust the work, so that they know I am going to do the job right.

“The advantage for them is that they have got one person to come in and do the job and get it right the first time,” Noel said.

“I can dig on-grade, on-line, without any pegs or any levels or anything like that, so it’s good for a one-man band; you just keep digging all day and you don’t need anybody to check on your work or anything, everything comes in spot-on,” he said.

According to Noel, the big advantage for a head contractor is that he’s a lot less expensive, because the company can use a one-man-band on projects – such as one recently, where he put in the drainage system for a subdivision development in Melbourne’s northwestern suburbs.

“Usually, to do a job like this, it would be three or four machines digging and there would be a labourer with each machine and then they’ve got to bring the pipeline crew in after that.

“But with the Topcon system, it’s just me and two other guys, and we’ve done the whole job here. It’s a pretty big job, it’s nearly 2 km and we’ve got it all done in four weeks,” he said.

And the advantage for Noel is that he’s more employable, his costs are lower, and he can complete jobs quicker.
“It certainly costs me less, because I don’t have to have a guy with me all the time, and it saves me time, because I can just dig in and out of a pit.

“Even if you box and roll, you can just keep going, nobody needs to check your levels – that’s usually time-consuming – you’ve got to get a guy there to peg your levels and you’ve got to repeg every single morning, whereas now I can just get in and dig,” he said.

“And I’m not affected at all by the weather. Usually, if it starts raining, you stop, unless you want to get in and out of the machine yourself and check all the levels – which is not safe as well.

“I just put the wipers on and I just dig for the rest of the day and the guys go home. In fact, when it rains, it’s actually been a godsend, because it’s giving me more time to dig.”

It’s also safer, as no one has to get into his trench excavations to check levels.

“With the Topcon system, especially when the trench gets a bit deeper, you don’t need a person down in the trench to check your levels,” Noel said.

“If you’re digging rock, you just keep digging and digging and digging and digging… in and out of pits, left and right, up and down, and your work comes in spot-on.  “As an owner-operator, it makes me more employable, because the major contractors don’t need to worry about you.

“They just give you the job and you just go and do it – to the millimetre – whereas before you would have to rely on labourers,” he said.

“If you’ve got a GPS on your machine, it’s easy for a major contractor, because they can just put the plans on the machine and the job will be done, just as they’ve given it to you.”

Noel also maintains the Topcon X63 system makes him at least twice as productive. “It’s twice as fast, digging with the Topcon,” he said. “Especially with boxing roads and doing wetlands – where there are all different levels and there is a crown in the road and all that – you can just dig, check your level, and keep going and going.

“I do not stop, whereas before I would always be waiting five minutes, waiting for somebody to come and take a level.

“Now we just keep going all the time; as long as you get the information, you’re off, especially with drainage, it’s excellent.”

Power Topcon
 Owner-operator Noel Power has switched from hourly hire to
contracting – and doubled productivity and income – through his Topcon
X63 3D GPS excavator control system.

Since he’s had the X63, Power has had a lot of interest in the system from other owner-operators. 

“A lot of people are a bit scared at the start because it’s a computer system in the machine; I even find it hard to use a laptop, but this thing, it’s just that easy, it’s a touchscreen and you can’t make a mistake. 

“And if you charge for it on a daily basis, you make a lot more than what you pay back for it. So, if you set yourself up right, you can nearly pay for your machine by using this system,” he said.

“Hopefully, I’ll be making close to double what I was before I had it,” said Noel. “This is job number one and it’s looking that way – but don’t tell anybody else that!”

Topcon increases productivity, cuts costs on complex highway project

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NSW contractor Coastwide Civil is using a range of Topcon machine control and rover systems to increase productivity and reduce costs for itself and its client on a complex highway project just north of Wollongong.

Coastwide M series grader

Coastwide M series grader

Wollongong-based Coastwide is carrying out the earthworks and pavement works on the 3.5 km Northern Distributor extension project, as a subcontractor to Reed Constructions.

The project, due for completion in mid-2009, will result in a four-lane highway from just north of Wollongong, to Bulli.

It traverses a highly built-up area, with numerous road and services crossings, and is in a fairly low-lying area subject to heavy rainfall.

Topcon equipment on the project includes Millimetre GPS on a Cat 140M grader and Cat 12H, X63 indicate systems on Cat 330D excavators, 3D MC systems on Cat D8L and D10R dozers, plus rover systems running Millimetre GPS.

 

Coastwide M series grader

 

Coastwide M series grader

 

“We’re using our Millimetre GPS rovers to do all our set out and the site’s basically pegless; it's a big advantage for our company not to have to put a peg in the ground,” said Scott Rogers, a director of Coastwide Civil.

“We find that it is giving us a huge advantage, especially with our speed. We get the levels right first time and there's no guesswork.

“And our clients are very happy with it; it's saving them a lot of work as they’re not doing any surveys for us – basically we are doing all of our own.

“There are no problems for them, and we are saving the client money by using Topcon gear,” Rogers said.

 

Scott Rogers Coastwide Civil

 

Scott Rogers, Coastwide Civil

Excavator system speeds up complex hill-climb circuit construction

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Victorian contractor Goldsmith Civil & Environmental recently completed a complex hill-climb motor racing circuit for Tru Energy using Topcon’s X63 3D GPS excavator control system. 

 Topcon at Goldsmith Civil

Goldsmith Civil and Environmental’s Komatsu PC200-8LC excavator fitted
with Topcon’s X63 3D GPS system.

  • Customer: Goldsmith Civil and Environmental, Melbourne, Victoria
  • Topcon systems: Topcon X63 3D GPS excavator control system, Topcon GR3 3D GPS Rovers
  • Applications: General civil construction projects.

Fitted to a Komatsu PC200-8 excavator, the Topcon X63 was used to ensure that the excavator was cutting accurately to the designed layout for the Gippsland Car Club’s new Haunted Hills track – described by the club as the best and most modern hill climb track in Australia.

The club needed a new hill-climb track after the current site, dating back to the early 1970s was resumed for coal mining activities by True Energy.

According to Cameron Goldsmith, principal of Goldsmith Civil & Environmental, a combination of excavator, grader and dozer, plus Topcon 3D GPS systems were used for stripping the site, cutting it to level and then boxing out the roadway.

In addition to the PC200-8 excavator and Topcon X63 system, two Topcon GR3 3D GPS rovers were used to check the levels for the bulk earthworks, where a Komatsu D65EX-15 dozer and GD655-3 grader were used to get the initial levels.

“It was a difficult site to work on with hilly terrain and many grade changes. The combination of rover, GPS and excavator has been excellent,” he said.

“With the excavator operation, it was most advantageous to have the GPS system because the operator was working on a site where there were not huge amounts of cut, but there was lots of detail due to the topography of the site.

“With this system, he was able to see what was going on in real time,” said Cameron.

“He wasn’t relying on our surveyor to come onto site and do any setup; instead he was actually doing the setup himself and producing a finished product then and there.”

Cameron said that since purchasing the Topcon 3D GPS systems, he’d noticed the supervisors and operators taking more “ownership” on projects.

 

 Site overview

“They feel as though they’re contributing more, and they really enjoy the fact that they are adding value to what they are doing.

“That’s really been one of the highlights of this investment from my perspective; that our people are enjoying what they’re doing,” he said.

Robert McKenzie, Goldsmith Civil & Environmental’s supervisor on the hill-climb project, said “having the rovers and excavator-based GPS made the project much easier and faster.

“On this project, we had one-in-one batters and, if you didn’t get it right, the whole thing wouldn’t work, it wouldn’t come to plan,” he said.

“The GPS with the GR-3 rover, gave me really fine detail, where to pinpoint the batters, the toes and the centre of the road, which made my job a lot easier, and it also helped the operators know exactly where the points were. “All I had to do, was start off marking a line along the ground so they could bulk out the material and then I could walk around and give the grader or dozer operator levels, and show them what needed to be cut or filled. With the on-board excavator unit, Robert said he didn’t have to be near the operator to show him what he had to do as he could move along and do all this himself.

“There is no way without this equipment we could have completed the project in the time we did, as it would have required hundreds of pegs, and a lot of extra effort marking out the batters, toes, centres of roads and culverts that we put in,” he said.

Excavator operator Keith McKie said that having the Topcon X63 with GPS on the machine doubled productivity and made his job of cutting out the roadways much easier, as he did it on his own, and didn’t need others to do levels and pegs for him.

Perfect trim with Topcon mmGPS on 20-year-old grader

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A Victorian grader owner-operator has recently fitted Topcon’s Millimetre GPS™ to his 20-year-old Caterpillar 12G grader – and is getting the same millimetre accuracy and productivity as operators with the latest model graders.

Everon Topcon 1

  Grader owner-operator Ron Woodbridge is getting the same sort of accuracy
and productivity from a 20-year-old grader using Topcon’s Millimetre GPS
as can be achieved with the most modern machines.

  • Customer: Everon Grading Services, Melbourne, Victoria
  • Topcon systems: Topcon Millimetre GPS™ on 20-year-old Cat 12G grader
  • Applications: General plant hire and civil construction.

Ron Woodbridge, of Everon Grading Services, primarily works for Winslow Constructions, and has had the Topcon Millimetre GPS on his grader since September 2007. And because he had previous-generation Topcon machine control systems on his grader – going back to a 16-year-old Topcon “legacy” system – he saved around $25,000 when upgrading to the Millimetre GPS. That’s because the latest Topcon systems are backwards-compatible with earlier systems, allowing them to use the same wiring, sensors and other components.

Since having the Millimetre GPS system on his grader, Ron has been very impressed with the speed, accuracy and productivity improvements he can achieve with the system.

“We recently put in 1800 tonnes of cement-treated base in a single day on this job,” he said.

“Once it was set up, no one checked any levels and there was minimum work that we had to go back to; I just went back and trimmed it off and it was perfect.”

He said the best thing about the system was its simplicity.

“When a rough-head like me can use it, without any problems at all, anyone can use it, I believe. I just get total satisfaction out of it because it’s so good,” said Ron.

“It’s so simple – and if you do have a problem with it, it’s usually your own bloody fault, because you forgot to put something in properly.

“The accuracy I can get is just unbelievable, and you can’t final trim like it. Anyone who says they can trim, peg to peg, and final trim like this system is having you on,” he said.

“I’m a reasonably good operator and I just find it overwhelming, it’s so good.

“The accuracy is incredible, like to do 1800 tonnes and have no one check a level – then when they came to pin up for the curb and channel, it was so close. That was just running it in, leaving it to roll with a single one cut-off and that was it – we didn’t have to go back and do any of it again.”

Ron has had the original Topcon sensors on his grader for the past six years, since he bought a used system from Victorian Topcon dealer Laser Beams.

“That’s the original 16-year-old Topcon sensor, which has never been touched – and it still works with this thing,” he said.

“I can’t believe Topcon has done this; I would have thought they’d make everybody buy new sensors – but no, they were just so adaptable. And if you have a problem with a lead, you just buy a new lead, that’s it.”

Based on his additional productivity and ability to final trim with no supervision, Ron is able to get a higher hourly rate for his 12G fitted with Millimetre GPS – and expects to pay off the system within two years.

“I can’t recommend this system highly enough – and I don’t want to recommend it, because everyone will get it,” said Ron.

“In fact, I’m that age now that if they gave me Jennifer Hawkins or this thing here, I’d take this thing here! In fact, I call it Jennifer Hawkins; it’s almost perfect.”

 Ron Woodbridge just loves his Topcon mmGPS, fitted to his Cat 12G

Automating your World: Configuring your machine for successful 3D machine control

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Welcome to the third Automating your World column, a series of advice articles by Position Partners’ technical experts. In this series of articles, we look at the various aspects of machine control solutions.

A single-antenna 3D grade control system on a Komatsu GD655 motor 
grader

 

Look at any job site and you can immediately tell whether or not the contractor is taking advantage of 3D grade control:

The ubiquitous masts sticking up from the blades of the machines give them away instantly.

They are on graders, dozers, scrapers and excavators and are now a common sight on Australian job sites.

But why is it that some machines have a single mast and others have two? Is there a difference between the systems? Is one better than the other? How do I choose which set-up is right for me?

Before looking closer at the various options, let’s recap what a 3D grade control system does: A data model of the job site resides in the on-machine computer. A GNSS (Global Navigation Satellite System) antenna determines the position of the cutting edge of the blade several times per second and feeds this information to the computer.

The difference between where your edge is (as measured by the GNSS antenna) and where it should be (as determined by the data model in the on-machine computer) is your cut/fill for the particular position where the blade is currently located.

The cut/fill information can be fed to the hydraulic system in order to drive the blade to design elevation in real time.

We must know the 3D position of the entire cutting edge of the blade, not just a point along the edge. Most graders are therefore set up with a rotation sensor, blade slope sensor and a mainfall slope sensor.

When all the dimensions of the machine is known to the computer, these sensors combine with the position from a single GNSS antenna to give us the exact 3D position of the entire cutting edge.

For many applications, a single-antenna system is a good solution. The drawback with this configuration is that the machine doesn’t instantaneously know the direction in which it travels.

A single 3D point is not capable of giving the system an orientation. The on-board computer therefore makes certain assumptions (such as the machine must be going forward when it is grading; no back dragging) in its algorithms.

An example of where a single-antenna system falls short would be when a dozer is used for finishing a steep slope.
If the slope and conditions are such that the tracks are slipping, the machine will be ‘crabbing’, meaning the direction in which its nose is pointing is different to the direction the machine is actually travelling. This could lead the system to query the data model in a spot that is slightly off horizontally, resulting in an elevation error.

Enter the twin-antenna system.


A dual-mast system is a must for an excavator, as seen here on a 
Caterpillar 325B

In the above example, we could query the data model in the correct spot if we just knew where the machine was pointing. By putting two GNSS antennas on the same mast we get two 3D positions and therefore know the heading of the machine in real time.

If the machine is fitted with a PAT (power-angle-tilt) blade, we can add a rotation sensor and the system will know both the heading of the machine and the orientation of the blade, ensuring correct cut/fill calculations.

The twin-antenna system also excels when installed on a motor grader. In addition to the system always knowing the direction of travel, a twin-antenna lets the operator roll the blade to suit the material and current conditions.
Other systems either require the operator to keep the blade fixed (so that the mast and antenna are always perpendicular to the mainfall of the machine) or must have a slope sensor installed to measure the roll. A twin-antenna system overcomes both these problems.

It is also possible to dispense with the rotation, blade slope and mainfall sensors on a motor grader and replace them with an additional GNSS mast and antenna.

Such a system is referred to as a dual-mast system and consists of two masts, each with a single GNSS antenna on top. The masts are mounted close to each blade corner.

Because the system gets a 3D point for each corner, it will instantly know the 3D position of the whole cutting edge and its direction of travel.

Note that I said direction of travel of the blade, not the machine. With a dual-mast system there is no way to measure the relationship between the blade and the machine.

The system must make assumptions as to the direction of the machine by having the software use empirical data to chart the path of the machine. For most grading applications on near-level surfaces this is usually not a problem.

A dual-mast system can let an operator articulate the machine and side-shift the whole A-frame to work very steep slopes.

However, one must be careful of how much the blade is sloped.

Because we deal with satellite signals, a very steep blade slope means the GNSS antennas will be pointing towards the horizon and not straight up. This can affect their ability to receive the satellite signals.

A drawback of the dual-mast system is that it is difficult to switch from using the GNSS antennas to using other positioning sensors.

Laser grade control, sonic grade control and 3D systems using robotic total stations all rely on the mainfall, blade slope and rotation sensors ‘normally’ found on a motor grader.

A dual-mast system cannot easily switch over to other poisoning methods unless the above sensors are already installed on the machine.

On dual-mast machines, they are normally not. If they were, there would no need to install two masts and have two antennas, since a single mast and antenna would be sufficient.

On excavators, though, a dual-mast system is the most practical solution.

This machine is fundamentally different from other earthmoving equipment in that it doesn’t work when it is travelling. It works only when the tracks are still.

It does, however, rotate. Because of this, two separate masts with one antenna on top of each are mounted on the back of the machine body. When the tail swings, the system knows it instantly because it works with two 3D positions at all times.

Be sure to ask your sales representative which antenna configuration is right for your application.

A twin-antenna 3D grade control system installed on the yet-to-be-
released John Deere 764HSD (High Speed Dozer)

 

And because some manufacturers only supply one or two of the above configurations be sure to ask why the sales representative is offering you a particular configuration over another.

Getting the right system for you application will ensure you the most return on your investment.

Grade well, grade quickly.