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RV’s And Campers

Motorhomes, also referred to as RVs or recreational vehicles, have greatly increased in popularity in recent years and are an excellent way to experience comfortable road travel. Unlike a commercial vehicle, RVs have full power steering and automatic transmission. Motorhomes offer excellent performance for their size and weight with diesel power for the majority of vehicles today, offering excellent fuel efficiency.

RV’s and Motorhomes are the ideal form of travel for those who like to spend their vacation time going camping in the mountains, running on the beach, or sightseeing along the highways and byways.

Motorhomes are a popular way to follow sporting events around the world, they are also ideal for shows and events, where you can be on-site close to all the action yet with your luxurious home-from-home there with you.

A motorhome is the ideal family vehicle, the driver’s compartment is connected to the cabin so that, even on the road, your whole family is together. Fully-equipped with a toilet, hot shower, air-conditioning, water tank plus a small kitchen including fridge, stove and oven, giving you complete freedom and flexibility.

Motorhomes usually have a 240 volt power inlet which can be hooked up to power the larger appliances such as air conditioners and microwaves. The on-board fresh water tank holds approximately 120 litres and will last between two and four days before it needs refilling.

Motorhomes are easy to drive but different to a car, Take things at a steadier pace and try to anticipate braking and cornering to make the journey more comfortable and reduce the number of complaints from the navigators.

Motorhomes have limited through-vision and some none at all so you soon start to rely on the mirrors. Small coastal and country roads get congested during the holiday periods and you have to be more aware of narrow bridges and roadside hedges as the motorhome is wider than a normal car.

Motorhomes, or motorized recreational vehicles (RVs), come in different classes.
Van campers, also known as Class B motorhomes, are basically small RVs created from a standard conversion or mini van and usually feature a raised roof. These motorhomes are the least expensive RVs to own and operate, and are generally also the easiest to drive around town as well as on the highway.

The size of a Class B RV usually varies from 16 feet to 21 feet, it gets you on the road to adventure in a compact size that’s fun and easy to drive, for a price ranging between $33,000 to $75,000.

Class A motor homes are generally thought of as top of the line among RVs. As the largest and most elaborate of the RVs, similar in stature to a bus, this class is, of course, the most expensive, with some sporting sticker prices in the hundreds of thousands of dollars. Depending on the model and floor plan, Class A RVs will sleep up to 8 people. But a decent used Class A motorhome can usually be found for below the hundred thousand dollar mark or so.
All RVs are incredibly well insulated, and because they’re only small compared to, say, a house, keeping them warm or cool is a cinch.
The quality and appointments of RVs continue to improve, with owners realising they can travel with all of the luxuries of home.

There’s one way to check out motor homes before you choose one to buy, and that’s by renting several and taking them on trial runs.

It’s a good idea to rent different models from different manufacturers to see what features you like, what you don’t like, and how the models handle on the road and in the campground. Then you can make a more informed decision when you purchase a motor home. Check out your local area for the best deals on renting.

So, whatever model you choose just have fun and enjoy!

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Timex Watches – A Classic Brand For Sophistication, Style and Fashion

Watches reflect the class, sophistication, style and likings of the owner. Timex watches were introduced for the very first time in the year 1950, as a result of Waterbury Clock Company. It was the first company to add some magnificent features that changed the definition of watch such as water resistance, shock resistance, latching mechanism and long lasting and durable strap. Timex has come from a long way by creating watches for both men and women.

The Timex was not renowned for its fashionable and contemporary looks until 1980, but later on with the introduction of ‘Indiglo”, this brand has been taken into account by the world and became one of the most popular watches. This watch was termed as an icon in fashion world across United States.

Timex men’s watches are known for a lot of features that make it one of the most sought after watches for men such as waterproofing, shock resistance, high quality and several other features. The watches from Timex are available in a style of life and timeliness that can be easily understand by the kids and elderly people. The sports and camping watches include several features that make it stands out of the rests of its kind such as compass and excellent waterproofing character.

Most of the Timex men’s watches are not meant for fashion, style or luxury and they are really not going to gain points for their fashionable looks. But they are known for their high manufacturing standards, magnificent quality material and an experience of around 150 years. The most popular watch for men from the house of Timex is known as the Ironman. This watch is known as one of the most developed, technologically advanced and versatile models. This magnificent watch exhibits TapScreen and Flix technology that make it a great unusually intuitive instrument. Tapping utility has taken the things to next level of comfort and effortlessness making it one of the most popular watches.

Timex also offers fabulous watches for women created by considering the real women in mind. They are generally thin, small and fit quite comfortably on the wrist of any lady making them perfect for home or at work. These are the most sought after timepieces for women as they are available in a variety of types and in different price range. These watches are equipped with high quality stainless steel dials, durable straps and many other features.

The Classic watches from Timex are also very popular as they include the analog creations and the direct design approach. These classic timepieces from Timex exhibits casual or light dressy character with aesthetic looks with long lasting and durable material. The unmatchable dials, the Arabic numerals, the single and two-tone configurations make this classic timepiece a bridge between modern times and history.

Watches from Timex exhibit the great illustration of a brand that remains in the market since decades and are respected for their basic values. These are considered as one of the most stylish, versatile and affordable watches available in the market.

Operations Improvement in Small Manufacturing – Five Overlooked Areas to Mine During Tough Times

Even in tough times when they need to maximize the impact of every nickel, I have seen
many manufacturers burning money.


Well, their attention is usually drawn to the obvious, and companies in tough times
usually tackle those: cutting personnel, eliminating extra programs, etc. However they
may lose money in the long run if they don’t attend to other fundamental changes.
Here are a few ways among others that I’m familiar with that are less obvious, yet can
make serious impact on the bottom line and should be considered especially in this

- measuring the wrong quality characteristics

- improper sequencing and execution,

- over investing in the current “as is” environment prior to changes

- living with business software that is sub optimally implemented or outdated.

- overlooking opportunities to provide closer linkage between R&D and production

I write and share this report so perhaps you, the reader, might find a nugget or two for
your own business. It’s not copyrighted – you can duplicate it to your heart’s content and
pass it to whomever you think would benefit from it.


A major candy and confectionery company was computerizing its supply chain to make
things more efficient. All the information of the raw ingredients, time to ship, quality
testing time, etc., were being integrated into one master system. In the process they
missed one piece of information for synchronizing events: seasonal supply chain events.
They almost missed Halloween! Eventually with frenzied damage control, they were able
to gear up the production to meet the demand.

So, that’s an obvious example, and it’s such a big SNAFU that it’s hardly likely your
company would make that mistake: your company is not likely to miss it “Christmas
season.” But it can miss many smaller practices that can cause bigger glitches. “A Stitch
in Time Saves Nine,” as they say. Trouble at the headwaters of production can get
amplified downstream.

Here are some illustrations from my experience that could contain valuable lessons for
anyone involved in process manufacturing:

1. What you measure is as vital as how well you measure it: or… “Product
shipped by weight, not volume; contents may settle during shipping.”

That consumer warning on packages reminds us of every day occurrences: Focusing on
one parameter while measuring another. Why would you measure volume if you’re
shipping weight? Well, it can get confusing.

Think of a school bus. What color is it? Yellow, right? Not exactly. It’s actually a
distinct mix of trace colors like red, blue, etc, which are added to the yellow in just the
right proportions that makes the bus so recognizable in dim light or stormy conditions.
The recognition and safety factors, so key to quality, stem from less than obvious

Other examples abound. Let’s look at another involving formulated industrial products.
At one time I worked with a small maker of low-tack hot-melt adhesive that was used to
make tacky polishing cloths for the furniture industries. One day the company found
product was being returned for inconsistent tack levels and poor color and appearance.
The firm needed an objective, targeted measure of the quality and effectiveness of the
cloth to satisfy its large OEMs and its ISO registration requirements.

The “stickiness” characteristic of the finished product was conferred by the polymer
impregnated in the surface. Up to that point the company had relied upon a “thumb feel”
subjective judgment of function along with a set of deteriorating retained products as
visual standards for color and general appearance.

Employees thought viscosity of the molten blend at various stages was the key.
Measuring that would call for some expensive, high maintenance instrumentation used
carefully at precise intervals. But I suggested examining the process more closely with a
disciplined experiment designed to see which process variables are clearly related to
important end product characteristics.

As it turned out, viscosity was a weak predictor of quality and performance. In contrast,
a low tech, inexpensive surface friction test proved to be far more effective. The
company saved $6500 per device in test equipment investment along with daily operating
and maintenance costs associated with the more elaborate testing method.
The subsequent QC testing program that was set up incorporated this and other
straightforward measurements. These methods kept costs and quality in line and offered
deeper insight into the impact of process conditions and ingredient proportions. In
addition, the friction test provided a vital element of the objective “process control”
requirement of QS/9000 (now 2000) guidelines.

This new approach enabled the firm to obtain compliance and satisfy vendor certification
and supplier audits from large key customers and to qualify for new business.
Is your firm, large or small, simple or complex, measuring the right things for the right

2. Haphazard Sequencing of Orders and Processes Causes Waste, idle time, delays

Everyone knows the aggravation of living with the limitations and constraints of
processing equipment. Only so much quantity and variety can be produced in a given
period. What is less obvious is that there is often still room to adjust the sequencing and
conditions to maximize throughput. These adjustments can even go a long way toward
fulfilling the “lean” goals of less waste and idle time. This requires at least a little
disciplined logic and spread sheet figuring over and above what a visual scheduling tote
board, grid diagram, or other types of crib sheets can provide.

In one fluid agrichemical operation I observed, the purchasing manager, the shift
foreman, and a planner/scheduler all had their own schedules. No schedule was
compared with any other until after many production orders were already launched.
Which one prevailed? You guessed it, a fourth in-plant “on the fly” compromise
schedule based on hunches, incomplete information and last minute corrections.

Other examples can be found:

Consider two consecutive interdependent processing stages with separate process
durations that are somewhat predictable in advance. The sequenced stages might involve
agitating, heating, curing, drying, and the like. The duration of each will vary depending
on the raw material in question, the conditions chosen, even the weather (as in conveying
and melting wax or other substances). This means that for a given job one process may
take longer than another, while the reverse may be true with another job.
A producer of dispensing machine beverage powders was experiencing order stack ups
and random waiting and idle periods as the sequence of different materials were
processed. As part of the general process overview, I learned that the company had a twostage
blending and spray drying process. In this process some raw materials dissolved
better than others, while some finished blends required slower, gentler drying cycles.

In such cases a good way to sequence the jobs is to find the job with the shortest
predicted process time for either stage. The job is then queued up first if the first stage is
expected to be shorter than the second. If the second stage is to be the faster one, the job
is queued up last.

The process is repeated with the list of jobs remaining, filling the sequence in from both
ends toward the middle until all jobs are sequenced. An optimal sequence minimizing
total process time will result.A slight modification of this procedure using correction factors can be used in cases where the second stage can start before the first is complete, as with split orders, drawoffs,
and partial batch transfers.

This approach does not require expensive or sophisticated software or more than visual
comparisons and spread sheet level calculations. This approach also proved useful in environments such as a melt and mold sequence for wax slab preparation where melting and molding steps can alternate as bottlenecks,de pending on the grade of wax and other conditions.

Note that the objective is not better equipment utilization for its own sake, but better
throughput of job orders per time period–what generates revenue for the business after
sunk costs have been committed. (No one has ever been paid directly for how
uninterrupted their equipment usage is, unless it’s to settle a bet!)

Are there process sequences in a facility you know that could be more productive? There
may be a way to get that productivity without equipment upgrades or expansions.

3. Ignoring growing gaps between aging application software features and needs

Everybody’s got software to sell nowadays. It’s tempting to avoid the complications and
uncertainties of changing or upgrading. We have witnessed a deluge of specialized
offerings ranging from erp, mes, and industry specific CRM systems to process control
and data acquisition systems. And now enterprise manufacturing intelligence (emi) to tie
the loose ends together. It can all induce severe “acronymphobia”, not to mention
confusion and paralysis.

On the other hand, tough times require that we seize every advantage possible. How can
we do that when I/T budgets are shrinking?
One approach to consider is allowing an unbiased computerized expert system help with
the decision. These expert system logic tools can gauge the gap between past, present,
and future needs and the capabilities of the applications in place. Best of all time and
assistance can be rented on a per project basis, keeping the investment modest.
At one time, I undertook an application software assessment for a $30M metals
processor. The firm served the automotive and allied industries and organized its stocked
and in-process materials by attributes (size, weight, length, width, grade, etc.) rather than
by sku numbers. The OEM firms using such an “outside processor” are essentially both
suppliers and customers at the same time–material arrives, gets processed, and is
returned to them.

Each of these circumstances limited the metal processor’s ability to conform to more
widely applicable manufacturing software packages. Use of the expert system evaluation
tool combined with some extra research revealed that an industry specific niche ERP
product for “attribute based” metals processors would work better than an initially
cheaper generic ERP system that could be costly to customize, adapt, and maintain.
After selection and implementation, the estimated savings for this small enterprise was
well in excess of $150,000 annually when compared to previous methods of tracking,
organizing, and executing material processing that combined manual and older, less
adaptable software. Savings on customization costs, both planned and unplanned,
obtained by selecting the specialized rather than a generic package added another one
time savings estimated at $100,000. Of course, no one should blame the client for
declining to run an experimental generic package implementation in parallel to verify
these savings!

Is there a suspicion that the capability gap between business software and requirements
may be growing? Now might be the right lull in the business cycle to find out and take

4. Needlessly Prolonging Continuous Improvement in Two Crucial Ways

The batch flow or semi-continuous process operation at first glance seems less amenable
to finding and implementing improvement opportunities than a textbook discrete “widget
making” or piece part operation you may have seen. Pipes, vessels, steam jackets, or
reactor chambers obscure the easily identifiable avoidable waste and “non value add”
activity, and crews may tend to several activities spanning several lines rather than
distinct work areas or cells. Yet, reasonable bite-sized, digestible improvements in these
environments are feasible. What may make more sense, at the risk of committing heresy
against lean thinking or other improvement philosophies, is to move directly to a better
“future state”, rather than optimizing or dressing up the “as is” state at critical points in
the facility. (I will assume a little familiarity with process improvement vocabulary here,
but the ideas are straightforward.)

To illustrate, it may make more sense to skip the work area neatening and straightening
and “quick hit” efforts called for by work place clean up (“5S” in Japanese buzzword
speak) and “kaizen” incremental improvements and proceed right to the new “to be”
process setup. The existing human work space is external to the process, after all, and
may even prove irrelevant after changes are made
A hand-blended, barrel and drum scale stamping lubricant blender that I assisted made
the leap to an automated mass flow meter based blending system. This mini-scale
operation found that neatness and reduced clutter naturally followed in the wake of this
upgrade once the frantic pace of manual rework and adjustments abated. It can be more
heartening to the team to make manageable, meaningful changes of this sort rather than
trivial or elementary ones or to make pointless changes destined to be quickly displaced
by others.

A food microbiological sample testing facility client had a congested arriving sample
area, an immovable, fixed walk-in incubator, and other sample prep, scaling, and
sequential repetitive processes surrounding it. The facility needed a way to relieve the
receiving area choke point and get samples processed faster to service critical customers
better. Through our help they found that adapting continuous production flow techniques
to “pull” products downstream, eliminate unnecessary unproductive movement, and
properly manage incubator capacity and timing provided almost instant relief to the
receiving area. Business was solidified and billable volume increased, while workers got
home earlier and avoided burn-out. Time spent on sprucing up the receiving or first stage
processing area beyond removal of safety hazards and some basic mistake-proofing
would not have yielded comparable benefits and would have postponed genuine

Similar benefits were obtained in a small continuous pasteurized fluid beverage facility.
Here, ironically, manual clean up paraphernalia created more clutter until better planned
continuous runs of product reduced the frequency of changeover and disruptive cleanup

A second cause of prolonged improvement initiatives is attempting to painstakingly
streamline every identifiable sub process node in a larger production or paperwork
process regardless of its impact on the whole. More often than not there are crucial sub
processes that govern the performance of the entire process–either in rate of production,
build-up of work-in-process queues, or control of quality. Zeroing in on them will help
limit the risk of creating locally optimized processes that don’t contribute to overall
performance. In the lab case above, speeding up the rate of completion of final testing
steps that occurred after the incubator stage, while possible, would have only tightened a
few isolated downstream sets of procedures. Improving the batch handling of samples
through the incubator, on the other hand, made a significant impact on the overall
effectiveness and efficiency of the lab.

Even more dramatic examples occur among plant floor operations where certain steps
involve bottlenecks or “rate limiting” steps. Finding all improvement opportunities is a
good long term continuous improvement objective, but only a critical few may yield
success in the short run. Are there a “significant few” areas for improvement being
overlooked while the “trivial many” are under study? It may pay to take a look.

5. Missing Ways of Bridging R & D and Production Activity and Data Domains

While discrete manufacturing environments seem like naturals for integrating design and
manufacturing what with CAD, shop assist drawings, and tightly orchestrated
engineering change orders, the situation is murkier in process manufacturing. Complex
formulations and lab scale chemistry, biology, and material science can lead to many
loose ends on the way from R&D to production such as separate bills of materials,
recipes, or approved formulae, not to mention separate quality and performance
measures. Scale-up pilots that show unexpected cause and effect relationships among
variables and observed quality or performance contribute more complexity.

One confectioner I worked with experimented with multiple methods of monitoring
chocolate liquor viscosity and solids concentration for the purpose of controlling and
adjusting end product characteristics. I worked with them to construct an open loop data
communication link between the lab and the liquor and sugar tank farm areas to make
adjustments in full-scale special product runs. This approach avoided the typical delays
and lags that normally require chasing and catching already processed product to make
changes. Eventually, the close link-up allowed R&D to fine-tune the in-process recipe to
obtain a richer, smoother mouth feel product that commanded a better price and profit
margin. Later modifications were made to QC testing to make spot checks on the same
product. That effort brought QC and R&D into closer alignment on their methods and
priorities, bridging a gulf almost as serious as that between R&D and production.
Careful combinations of procedures and technologies can bridge functional gaps and
cultural “brick walls” that can seem insurmountable or are simply “part of the
landscape”. Might there be a few applicable to your environment?