The Evolution of Engine Machining
The early beginnings of the modern combustion engine were developed during the late 1800's. During the past century since then, there has been significant development in engine design. Engines have undergone refinement to increase efficiency, reliability and production economy. Despite these developments, it still remains that engine components wear and machining is required when the engine is being reconditioned. Whilst the principles of engine machining have not changed significantly, the methods employed and the machinery used to achieve the best engine machining finish have advanced as technology has improved.
As with many industries, engine reconditioning has been influenced by external factors. The availability of parts due to cost restraints has been a major factor when rebuilding engines. In the early era of engine design, right through to the 1980's, components and parts were far too expensive to replace. Components such as valves and pistons were commonly reconditioned, rather than having new replacements installed.
|Using Koetherizing to repair old pistons....|
During the 1950's at a time when the price of new replacement parts was at a premium, if something could be refurbished, rather than thrown away and replaced by new, then the method would be employed to save costs.
The advert displayed here was published in 1954.
Koetherizing was a method used to restore pistons to their original size by using a blast of compressed air to spray a steel shot inside the piston skirt. Worn pistons were first measured to determine how much expansion was required, and then placed in the "Koetherizing" machine. A timer on the machine tells the operator when the proper amount of spray has been applied. The piston is mounted to an oscillating table which the operator turns during the process to provide a proper distribution of pressure on the piston.
The tariff reduction reforms of the mid to late 1980's had a major effect on the Australian economy, particularly the manufacture of motor vehicles and parts. Suddenly, cheaper imported parts became available to the Australian market and reconditioning old parts was no longer worth the time and effort. Hence, these days, we wouldn't even consider replacing a faulty valve or piston with a secondhand reconditioned option, as a brand new part would be installed. A machine like the Koetherizer, is no longer required in the modern engine reconditioning workshop.
|Another process used in early engine machining days, was knurling pistons. The skirt of a piston was expanded to take up the gap caused by a worn piston or cylinder bore. This prevented piston slap, when the engine was operated after reassembly. The skirt had to be supported internally during the procedure, to prevent collapse of the piston. This process was carried out with hand operated knurling tools prior to the development of knurling machines.|
Back in the early days, piston rings were commonly supplied with a top piston ring spacer, which acted to take up the excess clearance in a worn ring groove. With some simple machining, the spacer would take up the space to repair the worn ring groove. New pistons were not required.
|Hydraulic lifters were another engine component which were commonly reconditioned, due to the price of new replacements. The body of the tester was filled with a special test oil. The lifter was placed inside and the push rod was inserted into the lifter socket. It was then checked for "leak-down" in a specified period of time, with the weight of the arm acting upon the lifter. If the lifter leaked down rapidly or collapsed immediately, it would need to be rechecked and/or replaced.|
Of course, as technology improved, so did the efficiency of the production of parts. The introduction of NC and CNC technology revolutionalised the industry. The production of parts became far more cost effective as the time taken to produce a part became a fraction of the time previous taken to produce that part in the past. The price of new parts has reduced in-line with this production efficiency. As new parts become more affordable, reconditioning certain components has become obsolete.
Over the years, engine machining equipment has been upgraded and improved as the advancement of technology has provided better solutions for achieving the perfect machined finish.
The following provides an account of how machines have evolved in specific areas of engine machining...
|Some of the first portable cylinder boring machines, for reconditioning engine cylinders, were introduced in the early 1930's.|
The B4B was a revolutionary machine in it's day and paved the way to a new era in cylinder boring.
This machine allowed semi-automatic operation as the machine was programable. It featured an air float table, air-clamping, adjustable boring range and cutter speeds, variable feed rate and jigs to roll V6 and V8 engines.
The next generation in cylinder boring machining. While the Repco B4B had a fixed head and with a moveable bed, this design was more user friendly and allowed quicker operation as the head moved with the bed remaining fixed.
The Rottler F67A CNC Machining Centre employs the latest technology to perform block and bore modications and other blueprinting operations.
|These honing machines, which were essentially drills suspended from overhead, could produce a poor finish as the operator had to watch for uneven stroking which could create a taper. The introduction of semi-automatic machines reduced this margin for error.|
|The Repco H3 Honing Machine was released during the same era as the Repco B4B Boring Machine, and featured the new "air-float" table and air clamping technology.|
|As with the next step in the evolution of the boring machine, the honing machine moved forward from the fixed head with moveable bed styled machine, to a design which used a moveable head, which was quicker in operation.|
Valve Facing began with hand-operated valve refacing machines.
Some of the hand operated valve facing machines of the 1920's used a chucking system which is still used in many of today's machines.
|Mechanical machines were obviously quicker and less labour intensive than hand operated tools.|
|Valve facing machines evolved to face angles with greater precision and less effort.|
The Rottler VR7 Valve Refacing Machine sets new standards in speed and accuracy for cylinder head work.
VALVE SEATS, INSERTS & GUIDES
|Valve seats were initially cut using a hand operated tool. The head of the Anchor swivels on a universal ball to align with valve guides at any angle to the face of the head. The cutters were chosen according to the size of the valve seat/insert.|
|This machine was one of the first motorised units for insert recessing. The base unit was clamped to the head and the angle was adjustable to align with straight or inclined valve guides.|
|This tool was used for the insertion of thin wall valve guides.|
|The Repco RVR revolutionalised the machining of cylinder heads. This one machine was able to cut valve seat recesses, drill and ream for thin wall guides, ream valve guides and cut, throat and narrow valve seats. This increased the speed and efficiency of these operations.|
Our Serdi 3.0 valve seat machine is highly regarded as the most accurate for precision valve seat machining.
While engine balancing technology was available to vehicle manufacturers, the average machine shop could not afford this level of investment, unless it was justified with demand. Balancing machines were not introduced into many engine reconditioning workshops, as balancing was only used in performance or racing applications.
The importance of engine balancing was recognised way back in the early 1900's. Having an engine component, like a crankshaft balanced, reduced vibration, creating smoother running, which allowed the component to rotate faster without damage. It was recognised by the Mercer Automobile Company back in 1912 that as vehicles increased speed, vibration caused by crankshaft rotation became more of an issue. They promoted their in-line six cylinder engine in the Type 35 Mercer as having a "large and perfectly balanced crankshaft to make the engine practically vibrationless".
Universal Balancing Machines were introduced into crankshaft production lines. Balancing lines for cranshafts determined the unbalance of the crankshaft and the required drilling depth for its correction. A simple transport system transferred the crankshaft from the measuring station to the drilling unit and back.
It wasn't until the early 1950's when a new method was developed for large volume production of crankshafts. This new process enabled the actual axis of inertia of a crankshaft forging or casting to be determined and marked with centering holes. Mass correction was performed by a drill unit integrated into the balancing machine. The cost of balancing became much more economical as removal from the balancing machine and re-installing on the drilling machine was no longer necessary.
The next major influence on engine balancing came with the introduction of electronic technology in the 1970's.
Repco DB1 Electronic Balancing Machine
This developed further with the emergence of microprocessors in measuring systems in the 1980's and digital technology was introduced into the balancing process.
The CWT Multi-Bal 5000 offers state-of-the-art analysing electronics which allows our machine to give extremely fast and accurate analysis of a crankshaft or rotating part. This allows "real time" updating of the correction requirements. The control software allows us to accurately correct the unbalanced crankshaft and offers unlimited data storage for bob-weight information, part numbers and part description.
Balancing a crankshaft is now more affordable with the efficiency of the CWT Mult-Bal 5000. A service which was once only seen in vehicle manufacturing production lines or large industrial workshops and offered only to large budget race teams, is now available for all engines, whether it be a performance, restoration, heavy duty or everyday application.
Galloway Engines have followed the evolution of engine machining since 1978. Our continuous equipment update policy ensures we are at the forefront of engine machining technology. Although our policy can be expensive, it runs in line with our desire to be the best and ensures our customers get the best engine machining available.
This enthusiam in the industry extends beyond the workshop. Laurie is a keen collector of engine reconditioning memorabilia and his interest has initiated the set-up of a collection of old machining equipment.
MAX PINJARRA - XTRAVAGNSA SUNDAY 1st APRIL 2018
MAX EXTRAVAGANZA SUNDAY APRIL 1ST 2018 ...
Frequently Asked Questions
How do I know if my engine needs reconditioning?
Tell-tale signs that your engine requires attention are that it has lost performance or efficiency, it blows excessive smoke or it has developed an unusual noise. However, a vehicle needn't have these symptoms to benefit from a reconditoned engine. A complete and comprehensive recondition of your engine will increase power, fuel efficiency and extend the life of your vehicle.
Do you remove and refit engines?
Galloway Engines is a precision workshop which deals in machining and reconditioning engines. This ensures we are specialists in our field and only a quality job of the highest standard will be delivered. We can arrange engine removal and fitment or contact your regular vehicle servicing centre for this service.
Can I supply my own parts?
Yes. You are quite welcome to supply your own new parts should you have a preference for a particular brand name. However, our parts prices are very competitive and our high standards ensure that only quality parts are fitted to any job. We have liaisons with many Australian and international companies allowing us to have access to world-wide sourcing of parts.
Do you offer a warranty?
Any reputable product will come with a warranty as proof of its quality. Galloway Engines are no exception. We offer a full warranty on all of our work. Contact us for more information on the terms and conditions of our warranty.
Why should I use Galloway Engines?
Galloway Engines supply a quality engine which is completely reconditioned to comply with original manufacturers specifications and are in accordance with Australian Standards AS4182 for petrol engines and AS4427 for diesel engines. Our up-to-date equipment produces quality precision work and our team of specialised technicians are dedicated to detail. This ensures you are getting the best job possible.
Can you recondition any engine?
Yes. Whether it be a Caterpillar engine from a giant earthmoving machine or a small three cylinder Suzuki engine, we have the equipment to be able to meet your needs. Contact us to see how we can meet your requirements.
Do you offer engines which suit LPG?
As LPG has different properties to unleaded fuel, an engine can experience problems when converted to LPG. We can offer options which can enhance the performance and reliability of an LPG engine. Galloway Engine Reconditioning also stock a range of exchange heads which are modified to run on LPG.
Do you have EFTPOS?
We have full EFTPOS facilities available and are able to accept payment via Credit or Debit Card.
Address:Galloway Engine Reconditioning,
25 Baker St,
Pinjarra WA 6208
Phone / Fax:08 9531 1366
08 9531 2321