Futon Frame Maintenance and Common Replacement Parts and Hardware

A little preventative maintenance of your futon frame can greatly increase how long it lasts. We recommend checking the bolts on your futon frame every month or two, depending on how often it's used. If they are loose, gently tighten them, but be careful not to over tighten them. If you have a wooden frame, you can rub a bar of Ivory soap in the arm tracks every now and then, to keep things operating smoothly.

Most of the damage that we see is from forcing the frame to operate, when it's stuck. If you are converting your frame from a bed to a sofa, or from a sofa to a bed, and it does not easily convert, stop what you are doing, and remove the mattress, and carefully examine why it's not moving easily. Usually if you try to convert the frame and you pull on one side more than the other, something will jam, and if forced, you may break something.

Normally a guest will try to make their bed in the morning, and not knowing how to do it, they may break your frame. We suggest telling your guests to leave the futon as a bed, and you'll take care of changing it from a bed to a sofa for them.

Some parts wear out, and some of the plastic parts can dry out over the years. If the bolts are not tightened, a part can move around in a way that it's not recommended to, and that can cause it to break. People ask us why they do not make some of the parts in futon frames out of metal so they're never break. The reason is, if they were metal, and something jammed up, and was forced, the seat, or back, or an arm would crack, and that would be a more costly repair.

Here's a list of some of the more common futon frame hardware and parts. This is by no means a complete listing of all the parts, but it includes most of the common parts. Some items are called more than one name, so we list them twice. Futon store that has been around a long time, might even have obsoleste parts that you might need.

If you need a part that you can not find anywhere, consult a good futon store who's willing to help you, and give them a description and a couple of pictures showing what you need and see if they are willing to help you. They may need to know the name of the manufacturer of the frame because there are many frames that look the same, but the size of the bolts or seat decks and other items will all be slightly different.

Futon Bolts
Standard Futon Hinges
Click Click Hinges
Triple Click Hinges
Futon Mattress Storage Bags
Oblong Rollers
Carriage Blocks
Round Futon Rollers
Double Futon Rollers
Nylon Roller Inserts
Futon Barrel Nuts, Nuts, and Cross Dowels
Larger Futon Barrel Nuts
Futon Seat Stoppers
Futon Storage Bags
Allen Wrenches
Larger Allen Wrenches
Plastic Leg Caps
1/2 "Futon Hardware Sets
5/8 "Futon Hardware Sets
Angle Support Brackets
Decorative Bolt Covers or Plugs
Clevis Pins and Assemblies
Various Plastic Rollers, Glides and Carriage Blocks
Stretcher Support Rails
Futon Seat Decks
Futon Back Decks
Futon Arms
Cotter Pins
Washers and Clips
Futon Slats and Supports

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10 Top Reasons Why I Have to Upgrade My Computer

The rate at which technology is improving is very fast and in the time you get comfortable with the computer hardware you have bought, several new and improved models appear in the market. While some people prefer to keep their computers state of the art, most of us have a 'If it is not broken, do not fix it' attitude when it comes to upgrading or replacing our computers.

This is a strategy that could prove expensive in the long run. It is always better to upgrade your computer on a regular basis, especially if you have had it for over 2-3 years. Even if your computer has had a large trouble-free existence, you really need to consider periodic upgrades and here are the reasons why you must dos so:

1. Increase in Processing Speed ​​- This is one place where you really get to notice an improvement in performance. If you are upgrading from a Celeron 433MHz processor to a Pentium 4 1.6GHz, you would really notice the difference in performance!

2. Faster Memory Access – Improvements in CPU speed are typically accommodated by improvements in the speed at which data transfer occurs between the CPU and RAM. This is another area that provides an improvement in performance.

3. Size and Capacity improvements – Technology drives a reduction in component size coupled with an increase in storage capacity. This means that a RAM card or hard disk of the similar size as the older ones in your computer could have double the capacity!

4. Software Compatibility – Many of the new software packages you may wish to use in order to improve your productivity or entertainment experience may not function well on you old computer. It is better to upgrade your computer to enjoy the benefits of new software fully.

5. Obsolescence of Hardware – As your hardware gets older; Getting a replacement will get more difficult once manufacturers start phasing out the production. With improvement in technology, the older hardware becomes cheaper initially and becomes expensive as supply dries up.

6. Technical Support Issues – Many manufacturers stop providing technical support for older components as they cease production. The older your computer gets, the harder it is to find help in fixing it when it malfunctions.

7. Development of New Hardware – New hardware products appear in the market frequently that revolutionize your computer experience and are based on newly developed technology. The chances of your old computer supporting new devices are very low.

8. Faster Devices – Your old computer may not be in a position to accommodate the speed at which the new devices communicate.

9. New, Fast Communication Protocols – You may not be able to implement new or faster communication protocols in your old computer because the hardware is unable to support them.

10. Operating System and File Format – Your old hardware may not be able to run newer operating systems and some of the file formats may not be supported.

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Why Do We Need Software Engineering?

To understand the necessity for software engineering, we must pause briefly to look back at the recent history of computing. This history will help us to understand the problems that started to become obvious in the late sixties and early seventies, and the solutions that have led to the creation of the field of software engineering. These problems were referred to by some as “The software Crisis,” so named for the symptoms of the problem. The situation might also been called “The Complexity Barrier,” so named for the primary cause of the problems. Some refer to the software crisis in the past tense. The crisis is far from over, but thanks to the development of many new techniques that are now included under the title of software engineering, we have made and are continuing to make progress.

In the early days of computing the primary concern was with building or acquiring the hardware. Software was almost expected to take care of itself. The consensus held that “hardware” is “hard” to change, while “software” is “soft,” or easy to change. According, most people in the industry carefully planned hardware development but gave considerably less forethought to the software. If the software didn’t work, they believed, it would be easy enough to change it until it did work. In that case, why make the effort to plan?

The cost of software amounted to such a small fraction of the cost of the hardware that no one considered it very important to manage its development. Everyone, however, saw the importance of producing programs that were efficient and ran fast because this saved time on the expensive hardware. People time was assumed to save machine time. Making the people process efficient received little priority.

This approach proved satisfactory in the early days of computing, when the software was simple. However, as computing matured, programs became more complex and projects grew larger whereas programs had since been routinely specified, written, operated, and maintained all by the same person, programs began to be developed by teams of programmers to meet someone else’s expectations.

Individual effort gave way to team effort. Communication and coordination which once went on within the head of one person had to occur between the heads of many persons, making the whole process very much more complicated. As a result, communication, management, planning and documentation became critical.

Consider this analogy: a carpenter might work alone to build a simple house for himself or herself without more than a general concept of a plan. He or she could work things out or make adjustments as the work progressed. That’s how early programs were written. But if the home is more elaborate, or if it is built for someone else, the carpenter has to plan more carefully how the house is to be built. Plans need to be reviewed with the future owner before construction starts. And if the house is to be built by many carpenters, the whole project certainly has to be planned before work starts so that as one carpenter builds one part of the house, another is not building the other side of a different house. Scheduling becomes a key element so that cement contractors pour the basement walls before the carpenters start the framing. As the house becomes more complex and more people’s work has to be coordinated, blueprints and management plans are required.

As programs became more complex, the early methods used to make blueprints (flowcharts) were no longer satisfactory to represent this greater complexity. And thus it became difficult for one person who needed a program written to convey to another person, the programmer, just what was wanted, or for programmers to convey to each other what they were doing. In fact, without better methods of representation it became difficult for even one programmer to keep track of what he or she is doing.

The times required to write programs and their costs began to exceed to all estimates. It was not unusual for systems to cost more than twice what had been estimated and to take weeks, months or years longer than expected to complete. The systems turned over to the client frequently did not work correctly because the money or time had run out before the programs could be made to work as originally intended. Or the program was so complex that every attempt to fix a problem produced more problems than it fixed. As clients finally saw what they were getting, they often changed their minds about what they wanted. At least one very large military software systems project costing several hundred million dollars was abandoned because it could never be made to work properly.

The quality of programs also became a big concern. As computers and their programs were used for more vital tasks, like monitoring life support equipment, program quality took on new meaning. Since we had increased our dependency on computers and in many cases could no longer get along without them, we discovered how important it is that they work correctly.

Making a change within a complex program turned out to be very expensive. Often even to get the program to do something slightly different was so hard that it was easier to throw out the old program and start over. This, of course, was costly. Part of the evolution in the software engineering approach was learning to develop systems that are built well enough the first time so that simple changes can be made easily.

At the same time, hardware was growing ever less expensive. Tubes were replaced by transistors and transistors were replaced by integrated circuits until micro computers costing less than three thousand dollars have become several million dollars. As an indication of how fast change was occurring, the cost of a given amount of computing decreases by one half every two years. Given this realignment, the times and costs to develop the software were no longer so small, compared to the hardware, that they could be ignored.

As the cost of hardware plummeted, software continued to be written by humans, whose wages were rising. The savings from productivity improvements in software development from the use of assemblers, compilers, and data base management systems did not proceed as rapidly as the savings in hardware costs. Indeed, today software costs not only can no longer be ignored, they have become larger than the hardware costs. Some current developments, such as nonprocedural (fourth generation) languages and the use of artificial intelligence (fifth generation), show promise of increasing software development productivity, but we are only beginning to see their potential.

Another problem was that in the past programs were often before it was fully understood what the program needed to do. Once the program had been written, the client began to express dissatisfaction. And if the client is dissatisfied, ultimately the producer, too, was unhappy. As time went by software developers learned to lay out with paper and pencil exactly what they intended to do before starting. Then they could review the plans with the client to see if they met the client’s expectations. It is simpler and less expensive to make changes to this paper-and-pencil version than to make them after the system has been built. Using good planning makes it less likely that changes will have to be made once the program is finished.

Unfortunately, until several years ago no good method of representation existed to describe satisfactorily systems as complex as those that are being developed today. The only good representation of what the product will look like was the finished product itself. Developers could not show clients what they were planning. And clients could not see whether what the software was what they wanted until it was finally built. Then it was too expensive to change.

Again, consider the analogy of building construction. An architect can draw a floor plan. The client can usually gain some understanding of what the architect has planned and give feed back as to whether it is appropriate. Floor plans are reasonably easy for the layperson to understand because most people are familiar with the drawings representing geometrical objects. The architect and the client share common concepts about space and geometry. But the software engineer must represent for the client a system involving logic and information processing. Since they do not already have a language of common concepts, the software engineer must teach a new language to the client before they can communicate.

Moreover, it is important that this language be simple so it can be learned quickly.

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Build Your Own Tree House – Pros and Cons, Fasteners and Hardware

Tree houses are fun, bonding activities you can do with your friends or family, and can provide a unique and ideal hangout spot surrounded by Mother nature. One of the biggest differences in my opinion, between tree houses and other on-ground add-ons you can build on your property, is the fact that a house up in the trees sways – to varying degrees depending on the height and size of the Tree and branches – and so can add a unique and soothing feel.

There are several prerequisites that must be met before this particular project would be considered feasible for you. The first ones are also the most obvious:

  1. Do you have a suitable tree with your property on which you can construct your tree house? This question may be ambiguous to some, as what kind of tree exactly is considered suitable? Well, this depends largely on the size of the structure in question, as well as the expected load – number of people, furnishings, etc. The larger your tree house is, the larger your tree needs to be.
  2. How are you with heights? Now is not a good time to kid yourself or anyone else if you happen to be abnormally scared of heights! We're all scared of heights to varying degrees, but if you lack the courage or ability to comfortably work at the needed height, this project may not be for you. Granted, it can be built relatively low to the ground as well and still be called a "tree house" – in which case, this may not apply.

Now that we have those out of the way, we can get into the other aspects of building. When compared with a structure on the ground, a tree house may somehow seem like a simpler project due to the fact that some of us have grown up "throwing" little makeshift tree houses up here and there. However, it's important to remember that any halfway decent structure, whether on the ground or up in a tree, requires careful planning and implementation of standard safety code.

Here are some other questions you should ask yourself before concluding the planning stage:

  1. What will I use the tree house for? Depending on your answer, you may want a roof and walls, or you may find it unnecessary. In either case, a rail and / or walls at least a meter high is recommended for safety.
  2. How long do I want it to last? You may think that the answer to this question is obvious, but you should understand that the lifespan of your tree house depends heavily on the materials you use and the quality and number of layers of your protective stain. Tree houses, by virtue of their definition, stand within and under the canopy of the tree in which they are built. Because of this, they are more susceptible to premature rot due to the prolonged shade and humid nature of their environment. The fallen leaves and branches scattered across the deck also serve as decay-accelerators unless they are regularly swept off.

Foundation and Floor-shape

One of the unique beauties of a tree house is the fact that you can simply build around the various branches leaving them exposed within your tree house, enhancing the "natural" atmosphere. As with an on-ground structure, you should start with building your base and floor. You may face complications with the shape of your floor due to the limitations of suitable branches to base off of.

Because of this, there's a possibility you may have to set up for a non-square shape. This may be what you want, or this may be a problem for you. In any case, you should understand that there are some restrictions placed upon you by the particular tree you're working with. All branches used for a foundation should be able to single-handedly carry several hundred pounds, and more if you're expecting higher traffic.

Tree Wood Density and Fastener Quality

Large tree houses that weigh more than the collective weight of their occupants should be carefully designed , as various factors such as the hardness of the tree and fastener quality and design come more into play. Wood will compress where the fasteners connect to the tree to varying degrees based on the hardness of the tree in question, causing a sinking of the tree house.

Professional-grade Tree house Fasteners – Are they Necessary?

There are various tree house fasteners available on the market today specially manufactured for their unique needs. However, the question invariably arises as to how necessary these customized bolts and brackets are in comparison to normal ones found in home centers due to their price. They often cost between one and several hundred dollars each!

The first thing to bear in mind when contemplating the pros and cons of these rather pricey pieces of hardware is that trees are living organizations, and are still growing, moving, and changing shape. Therefore, your tree house and the hardware on which it is mounted must accommodate this movement. Simply bolting the beams into the tree's branches results in a fixed attachment that will force the tree to either pull the screw through the beam or try to grow around the beam.

The first of the two will result in a sudden and dangerous failure , while the second will result in an unhealthy and unnatural growth around the beam, potentially causing disease and decay to set in. Custom bolts and brackets are made with a certain allowance for tree growth, with a section of the bolt that is embedded deep in the tree's heartwood and a large shank that allows axial movement coupled with a female part that is attached to the beam.

So to answer the question of whether these expensive custom parts are necessary, the short answer is yes, and no. Yes, if you lack the know-how to find parts that will accomplish the same purpose as the professional parts do, and no, if you do, and do not require your tree house to last for fifty years. Home centers sell bolts and hardware with large diameters and lengths which can be used, but the entire shank can not be threaded.

The half or so that is embedded into the tree must be threaded, but the reminder that acts as the cushion to compensate for tree-growth must be smooth. You also need a female piece that fits around the smooth shank that has a bracket that can be screwed into your beam. This female bracket then has the freedom to slide along the axis of the smooth bolt shank as the tree grows in girth. All parts should be stainless steel as well – others may corrode to failure.

Obviously, the big tree house building companies would disagree with the above opinion, and the ideal is to buy these parts. I'm just offering an alternative for those who do not have a large budget but still want to construct a safe and environmentally-friendly tree house. There is also a chance you will not be able to find hardware that meets the criteria, leaving you with no other choice.

The professional criterion when it comes to fastening your tree house to your tree seems to be "perch, do not pin". I agree whole-heartedly with this principle and any alternative I save above should not contradict this. But not everyone looking to build a tree house is willing to spend tens of thousands of dollars, so, your budget is a primary factor in determining the quality as well as what kind you would build.

In any case, it should be a safe and fun place to accommodate whatever activities you envision. Taking into consideration the damage inflicted on the tree as well as future complications that may arrise such as those mentioned above when planning, is simply the responsible and consider course of action.

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The Advantages of Working With a Software Boutique Company

First of all, a boutique is a small shop where clients can find dedicated merchandise and unique items, or products which are produced in small quantities. The advantage of entering in such a shop, compared to big supermarkets, is that here you’ll also find staff ready to assist you and to give you guidance step by step. Indeed, one may say that a boutique charges higher prices, also in comparison to chain stores, which is definitely true. However, once you bought something from a boutique you’ll have the feeling that you own a unique item, which will differentiate you from the rest, and isn’t this what we all want – to be unique?

Software boutiques are a new way of defining petite software companies which are focused on a certain niche, and which are able to offer specialized support to their customers. Even more, such a firm is able to offer a unique product, tailored on the client’s needs and requirements. But, let’s see what advantages does a customer have when collaborating with a software boutique company:

Tailored product

A software boutique takes the client’s specifications and transforms them into a customized piece of software. Practically, if you are not satisfied by the mass-produced software programs which you can find, then a boutique company will tailor a product according to each and everyone of your requirements. The outcome will be a software product which is able to fit perfectly your company’s needs.

Niche focus

Generally, a boutique company is focused on a certain niche, for example developing applications and software products using Microsoft technologies. The advantage of having such a partner, is that you’ll have the confidence that he has the knowledge and proven experience to offer you the best advices regarding that specific area, and that he’s always updated with the latest technologies.

Crystal clear communication and dedicated support

Having a smaller amount of projects, a boutique software company can offer its clients dedicated support, according to every client’s need through a direct communication flow. This means that the information won’t need to travel through several departments until it reaches you, so that you’ll always be updated with the status and the quality of the work.

A good communication, not only that can save time, but also can make the development process more efficient. For example if you want a specific functionality for your application, collaborating with a boutique firm, you’ll able to keep track of the development process and promptly interfere in the development process if the work isn’t going in the desired direction, or if you want to change the approach. Also, fewer the clients, better the support. Practically, a software boutique will offer you their entire attention and expertise, whenever this is required.

Every client is important

For a boutique company every client is important, and because they can’t afford to lose a client, they can’t really afford to do a bad job. Every development project is treated with care, and you’ll know for sure that your project will be handled by the best men.

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Top 4 Benefits of Demand Planning Software

In today’s dynamically changing business environment, organizations have to be agile and quick in responding to market changes and internal factors to minimize losses and leverage opportunities. Demand Planning Software is essential to gauge customer demand and market changes in real time and pass on the information to the supply chain. It creates the perfect balance between market demand and supply. However, these are not the only benefits that a demand planning software offers. It has many other benefits and some of them are listed here.

It Helps in Accurate Revenue Forecasting: A good demand planning software help in accurate revenue forecasting by correctly analyzing the market demand and forecast results based on that. Without proper information and software to process that information, organizations bring products by guessing the customer’s demand. Some even take sub-par data that has not been properly processed to reach conclusions. Being a result of guesswork, this information or data does not always deliver favorable results. This software helps in analyzing data properly and then forecasting the revenue accordingly.

It Assists in Aligning Inventory Levels: When there is a huge demand in the market, a business can lose out on the opportunity of fulfilling it on its own if it not prepared with the right inventory. By knowing about the possible future rise or fall in the demand for a product, they can align the inventory levels to make sure that they reap the benefits and their customers are satisfied.

It Enhances the Profitability for a Product: If there is low demand for a product, a company may or may not decide to carry on with it. However, if it is bound to bring bigger profit margins despite low sales, it is worth investing time and money in. Using the Demand Planning Software, businesses can find out how to enhance the profitability of a product.

It Allows for Re-planning Based on Given Data: It is important to keep an eye on the market during the production and marketing lifecycle of a product. And the simple reason behind it is the need to re-plan or alter strategies to get maximum attention and beat the competition. By looking at the changes, decision makers can make amendments to the approach as well as the strategy to meet their business goals.

Their cloud platform mPower supports various aspects of businesses such as demand planning, retail planning, business integration management, supply chain planning, etc. The platform’s design allows business to do smart resource management and make intelligent business decisions.

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Why Architectural Drafting Is Common in Architectural Design

For architectural design projects, while there is the emphasis on using 3D models and architectural BIM modeling, the time-tested practice of using architectural drafting and 2D technical drawings is still commonplace in the AEC industry. Architectural drafting has evolved from the drawing board to computer-aided design and drafting (CAD) software programs. Drafting practices help to provide architectural construction drawings that include the technical details of architectural, structural and electrical elements required for the construction of a building. To understand the stage at which architectural drafting takes place, the workflow of a building design lifecycle must be considered.

The basic workflow of an architectural design project starts with the architect creating a conceptual plan which is usually modelled into architectural 3D models and rendered as photorealistic images for marketing and presentation to clients and customers.

Once the conceptual design is approved by the client, the design is then progressed into more detail and shared with other parties such as structural and MEP engineers. The way in which the design is progressed for the ‘design development’ phase by an architect lends itself to two options, either to develop a 3D model with more detail and then create subsequent sheets and details using a 3D tool such as Revit or AutoCAD, or as is still commonplace, to develop the concept design in 2D using more traditional methods. From the conceptual plans provided by architects and engineers, a drafter can convert these designs using CAD software programs to create technical drawings.

Architectural drafting is the process of creating technical drawings which include the floor plan, sections, elevations, detailed drawings and other documents in a construction drawing set (CD Set), which are typically required for the construction of a building.

The difference between Architectural Drafting and Modelling

Architectural drafting refers to creating 2D technical drawings and architectural construction drawings which are mainly used by contractors and consultants on site. Architectural 3D modelling refers to creating 3D models and renders of photorealistic images which are mainly used to present the architectural design for marketing purposes and then progressed from there to create the 2D technical drawings, in effect feeling like an extra stage (the 3D modelling element). The main software used for drafting, to create 2D technical drawings is AutoCAD while modellers use Revit and ArchiCAD to create 3D models and rendered images. Architectural draftsmen need to have basic 2D and 3D software knowledge such as AutoCAD and knowledge of technical codes and drafting guidelines specified by organisations such as American National Standards Institute (ANSI), American Society of Mechanical Engineers (ASME), American Design Drafting Association (ADDA), Public Works Government Services Canada (PWGSC), National Institute of Building Sciences (NIBS), BSI British Standards Institute and Standards Australia Code AS1100. Architectural modellers need to have a deeper understanding of architectural, building and construction concepts and experience with 3D software programs such as Revit and ArchiCAD.

Why Architectural Drafting is still Common in Architectural Design Practices

Architectural 3D models are preferred by architects and designers because they provide a 3D perspective of the conceptual plan of the building; it makes management of project data easier and allows for design changes on the go. However, construction companies that require technical specifications of the architectural project prefer 2D technical drawings and architectural construction drawings because they provide accurate details required for construction, most of the resources involved in construction understand 2D drawings, there are no issues with compatibility of software as compared to when using 3D models and it is a suitable solution to meet the budgetary requirements of a construction project. Some of the reasons why architectural drafting is preferable by several construction companies include:

• Suitable as per construction requirements – In some building projects, 2D technical drawings or architectural CAD drawings are sufficient to complete construction, where additional information that 3D models provide is not required. A construction drawing set (CD set) includes all the floor plans, elevations, sections and detailed drawings required for construction. Technical codes, symbols and other additional information such as the type of material are provided in technical drawings. Therefore, construction companies find 2D technical drawings sufficient to successfully complete construction.

• Availability of technical resources – Not all companies have technical resources to deliver 3D models. While drafting teams are qualified to work on AutoCAD to deliver 2D technical drawings, they may not be qualified to work on Revit to deliver 3D models. In the construction industry, the availability of drafting teams who can provide 2D technical drawings is ample compared to companies that provide 3D modelling services.

• Availability of software – The adoption of new software and practices is gradual and slow in the construction industry. The software used in building projects varies from country to country. Some countries use ArchiCAD and AutoCAD Architecture instead of Revit, therefore leading to the incompatibility of project data. 2D technical drawings in AutoCAD are widely used and compatible making it a preferred option to Revit 3D models.

• Suitable as per cost and budgetary requirements – In most cases, construction companies do not find the need to invest more in 3D models, when drafting solutions provide detailed technical drawings which are sufficient and relevant enough for construction. There is also the added investment in resources that are competent enough to understand and implement architectural 3d models on-site.

While architectural 3D modelling and BIM modelling provide design-related information typically required for architects and designers in the design stage of the building project lifecycle, architectural drafting provides technical drawings that are not just about aesthetics but about high-performance detailing of construction elements. Architectural CAD drawings specifically communicate the design intent and help in the construction of buildings which companies find relevantly sufficient over 3D models. Even as construction companies will need to eventually evolve to combining the use of 2D technical drawings and architectural 3D models until then, the time-tested practice of using architectural drafting and drawing solutions in construction is here to stay.

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Microsoft Access and Medical Private Practice

For physicians medical office software installation could be nerve-wracking, not because they want to avoid electronic medical records, but because the majority of the software packages are too complicated and very expensive for them.

The good news is, you can make your medical office software system uncomplicated and relatively easily maintained with one of the popular database software packages being used today, the Microsoft Access.

Microsoft Access is a relational database system developed by Microsoft. Microsoft Access is one of the easiest and most flexible database management solutions for the medical office and provides data validation and user-friendly features on data entry screens. It has been the dominant lightweight database system used for the last decade and has continued to grow with additional features. Access is a productive and very customizable solution for small medical practices and comes with MS Office (or standalone). However the next step up in a medical environment would be MS SQL Server but small medical offices usually only has need of a lightweight application and the added functionality with MS SQL Server, comes with a heavy price.

With this relational database system you can be up and running in one hour, which means that it is not necessary for your practice to spend lot of money to purchase, configure, update and maintain an SQL Server solution. Microsoft Access includes without any additional costs, points of integration with popular software packages including: Microsoft Word, Excel & Outlook and provides a free runtime version.

MS Access network setup is very easy. A medical office with 2-8 users is up and running within ten minutes, while installation and application maintenance is extremely simple. Virtually any user with a basic knowledge of Microsoft Access can handle all maintenance procedures without the assistance of IT personnel.

Keep also in mind that SQL Server is the flagship database system from Microsoft and it is suitable for use in environments with up to thousands of users. Microsoft Access can handle 2- 8 users and it is limited to 2 GB data storage.

We are convinced that the best way for private medical offices around the world to enter the world of electronic medical records is to purchase a professionally designed but inexpensive and affordable Microsoft Access based software solution.

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How to Fix an Error Accessing the System Registry Easily

The system registry is an important component to practically every computer, and it would actually be considered a pile of electronics if the system registry was not included. It is essential for computers based on Windows, since it is the storage location for the hardware, software, and pretty much everything that makes the computer run.

Changes and updates go directly through the system registry for storage, but sometimes things do not always go as smoothly as we wish. Not many know what to do about an error accessing the system registry, but it must be fixed in order to keep your computer running.

An error accessing the system registry is not very uncommon, and it usually occurs when old files or updates are still located within the registry. The error can occur when new updates are downloaded, new programs installed, or even when new software is being added to your computer. A window will usually pop up stating “error accessing the system registry” and not much can be done until the error is fixed.

It can result from old updates being left in the system, or even old files that were not deleted when a download or installation was incomplete. The best way to get rid of the error accessing the system registry is to find out the problem, get rid of old files, and start fresh with new updates and software to keep your computer running smooth.

Because the error accessing the system registry can occur for a number of different reasons, it can sometimes be hard to locate the specific problem. The first step is to determine what exactly triggered the error, such as a new download, new software being installed, or updates occurring to current software on the computer.

The error is most common when updates occur or when updated software is installed, since most likely older versions are still being kept within the registry. In this case, the error accessing the system registry can be easily correct. First off, the installation or update needs to be stopped. Then the system registry can be accessed by the computer owner, and software can be purchased or downloaded to fix this problem.

One of the best options for getting rid of an error accessing the system registry is a registry fix program, since it goes in and does all of the work for you. Rather than trying to find the damaged files and delete them yourself, the program knows exactly what to look for and get rid of for the error to go away.

Not only will a registry fix help to get rid of the problem occurring now, it can even help to get rid of any files and old updates that may cause problems in the future. It is beneficial for clearing your computer of any unnecessary files or programs that may be causing it to run slow, and can even prevent an error accessing the system registry in the future.

A registry fix program can either be downloaded online or purchased at an electronics store, and is a great way to fix an error accessing the system registry. It does all of the work for you, and can even improve the overall performance of your computer. It can get rid of old files, partial updates, or even programs that are no longer needed, and is perfect for fixing your error accessing the system registry.

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Determining the Best Type of Fastener to Use For Outdoor Furniture Construction

If you want to learn about selecting hardware for your next outdoor furniture project, then you'll want to read this article. Specifically, I'll be telling you about what type of hardware will perform best, why the type of metal used for fasteners and the finish used are important considerations, and how properly protecting or limiting exposure of your furniture to wet and winter conditions can increase Life span. After you're done with this article you will understand that the best choice of hardware for your outdoor furniture project is dependent on furniture style, material used for construction, selected location for the furniture and budget.

Selecting proper hardware for your furniture will help ensure a long life span, as well as improve the overall appearance of your furniture. Part of the problem is knowing what hardware to select when there are so many options available at the hardware store. The typical Lowes or Home Depot carries a huge selection of stainless steel, hot dipped galvanized, bright galvanized, plain steel, coated steel and brass bolts, nuts, washers and screws. Each type of fastener is suitable for certain applications, but not all are ideal for outdoor furniture applications.

In fact, choosing the wrong fasteners can greatly shorten the lifespan of your furniture, contribute to rot of wood furniture, cause unsightly staining, and even make your furniture unsafe to use.

One thing that needs to be noted right up front is, do not ever use unprotected steel fasteners for outdoor furniture, they will rust very quickly, and the steel will react with the tannic acid in the wood causing streaks and staining. The tannic acid actually speeds up the corrosion of the fasteners. Have you ever seen a wooden fence with black streaks running down the boards from the nails? This fence was installed with the wrong type of fasteners. The same thing will happen to your furniture. Even worse, as the fasteners rust, they will speed up the decay process of the wood around the rusted fasteners, ruining your furniture and making it potentially unsafe to use.

Hot Dipped Galvanized

Screws and bolts treated by hot dipped galvanizing are specifically designed for use outdoors. Electroplated galvanized or bright galvanized fasteners will very well not hold up as well as the hot dipped galvanized hardware. Zinc is used as a coating in both methods, and acts as a barrier against the elements and the tannic acids in the wood.

I strongly recommend only using screws or bolts in the construction of outdoor furniture, however. The galvanized finish on nails, either electroplated or hot dipped, can easily become damaged while hammering them in, exposing the nail head to the elements and allowing them to begin rusting quickly.

Adequate care must be taken when installing galvanized screws. Drill pilot holes in hardwoods, and be sure to use a bit that is not worn and intolerable to skipping in the screw head. For whatever reason, the galvanized screws seem to not be as well tempered as other steel fasteners, and are more likely to either snap off or have the heads strip out while installing them. Due to the permission required for the hot dipped coating, galvanized bolts do not have as tight of tolerance on the threads, and are more likely to strip if over tightened.

Hot dipped galvanized fasteners are a fine choice for many outdoor furniture applications, including Adirondack Chairs, but are not the best choice for use in woods, such as teak.

Stainless steel

Stainless steel is the best choice for use in woods with higher levels of tannic acid, such as teak. Stainless steel is an alloy or blend of steel, nickel and chrome. The ratio of the other metals with the steel determine the weather and corrosion resistance of stainless steel. Because the steel is mixed with other softer metals, the stainless steel is not as strong, so predrilling of screw holes is highly recommended in all applications, and essential in hardwoods such as teak and mahogany. The added corrosion resistance more than outweighs any shortcomings that the metal may have, especially in outdoor furniture applications.

While stainless steel fasteners are the most rust resistant, they are also the most expensive of the options we are discussing. However, using stainless steel fasteners will add years of life to your furniture. In the respect, they are an investment that will pay out for years to come.

Brass

I have seen brass used in some commercially produced outdoor furniture, but do not recommend it. While brass does not form red rust, and is well suited for many wet applications such as toilets and sinks, it does tarnish and corrode. It is also very susceptible to the tannic acids in wood, which will cause it to fail more quickly. Brass screws in particular Do not have sufficient strength for outdoor furniture applications.

Outdoor or deck screws

In the past several years a number of manufacturers have introduced outdoor fastening products specifically marketed for deck building. These will typically be green, gray, tan or brown. These screws are either ceramic or plastic coated to delay the metal reacting with the wood acids. The specific coating methods are proprietary to each manufacturer, and can be a combination of electroplated galvanizing and plastic, or a baked on ceramic.

I have used these fasteners in furniture applications and they perform just fine. Unfortunately, I have not come across bolts with this type of finish. The brand of screw I used was Deck Mate, and they were available in tan and brown, so that the color can be selected to better match the wood being used. These screws are ceramic covered, and the manufacturer provided a coated bit for installation, which was designed to not damage the ceramic coating at the screw head. If you choose this type of fastener, be sure to compare the cost with stainless steel, as the price will vary. If the stainless steel is reasonably comparable in cost, it would be the recommended fastener.

Always be sure to read the manufacturers specifications on the box to be sure that the screws are suitable for your application.

Other Considerations

If you are building furniture that will be located on a covered porch or patio where it will be protected from the elements, the concern will be the interaction between the wood and the fasteners, much more so than the weather. Furniture that will be exposed to the elements all year, such as a garden bench, or an adirondack chair in the corner of your garden, will have to be constructed with much more care and concern to ensure that they hold up more than just one or Two winters.

Additional considerations must be made beyond just the choice of what type of fastener to use, though this is very important. For example, fasteners should not be located where water where collect and sit on the fasteners for an extended period of time. The screws that attach the seat slats to an Adirondack chair are a prime example- typically these screws will be countersunk below the surface of the wood. This will allow water to collect in the screw holes, shortening the life span of all but stainless steel fasteners, and prolonging the exposure of the wood to water, which will increase the rate of decay. In applications where the furniture will be exposed to the elements year round the screw heads should be driven flush with the surface of the surrounding wood.

Construction and design of the furniture are also important considerations. Are the horizontal surfaces of the furniture constructed in such a way that will allow them to shed water, rather than collect it? Think of a picnic table with a slatted or board top. The gaps between the boards allow water a way to run off the top and not pool up.

Conclusion

Stainless steel is usually the best choice for outdoor furniture applications, although the cost may be prohibitive for some. There are other less expensive fastener options available that will perform acceptably. Do not use unprotected steel fasteners for outdoor furniture applications under any circumstances. Know where and how you intend to use your furniture and design it for the conditions it will be subjected to.

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