Skip to main content

Things to Keep in Mind When Using Power Cords for Workshops

We often overlook the importance of choosing the right kind of power cord for the tools we are using. This might be the post that could save you big bucks and your health as well. Whether you are a tradesman or a weekend fabricator, consider the task of choosing the right extension power cord as important as you check your financial records. Even when you put these cords to their actual use, such as for temporary lighting, you often forget basic safety formalities. Therefore, when you are choosing a power cord for your workshop or home you need to be a little aware of your product use.
Like every now and then we’ve all had this thought in our mind of buying one long cord and use it for every purpose. Let’s clear out on this and understand why is it a bad idea?

Right Angle Power Cords

Wrong Uses Of Power Cords

For example, you have got a 4 ½ angle grinder plugged into the old 16-gauge, 100ft extension cord you usually use for the lamp lights. It’ll work in a proper way, but there might be chances that the body of the grinder heats up more than the usual. And it can get worst than this, the whole thing might just stop working. Giant equipment like electric motors have to pull more power to cover long distances; with a cord in perfect condition, if it’s thin, then the length will not carry the amperage needed to keep the grinder’s motor running in an ideal way.
Let’s consider another instance where you need only 50ft. You put the other 50 out of the way. The reason behind this is the half of the cord wouldn’t be exposed. But electric current is still running through it, and the heat built up from the wire’s resistance would further drop its actual capacity. If the wires get extremely hot, the heat generated from coiled-up power cords is prone to fire.
In such a situation, the resistance of the cord’s small gauge, the rolled-up length, and then draw of the grinder’s motor generates heat. These situations are not the ideal ones and might harm your equipment.
Knocked and partially cut portions of your right-angle power cord cause more than just damages. They block the flow of electricity with added resistance and heat which lowers the capacity to carry the power over the full length. Therefore, keep in mind that a cut that exposes wire is like an electric shock waiting to happen to you. The solution to this problem is to buy a new male and female connector to make two smaller connections.
Talking about the ideal situations, you should have multiple extension cords available of various lengths, thick enough to supply power to your tools in a safe way. If you accidentally step into any of the shops, you will find the keeper normally running their equipment with a 100-ft, 16-gauge. But the truth is that whatever tool they use always heats up and is vulnerable to cause a serious accident.
There are many instances of power cord uses which reduce the power you expect from a cord. For example, multi-colored cords plugged into each other draped over and through toolboxes, cabinets, and tables held together with electrical tape. After this, there comes the power strips and splitters. These all type of situations are responsible for low power supply.

The Solution

You should store at least 2 to 3 cords for use. Like the collection of 14/3 and 10/3-gauge power cords. The 14 gauge tends to be super short and comes handy when you need a little extra to hit the wall socket. The 10/3 is around 25ft, heavy duty that can be handy for heavy power consumptions tools.
But when it comes to choosing a specific power cord like right angle power cords for your workshop, running multiple extension cords can be a little tricky task to handle. That’s why there is a reason behind using a thinner gauge cord here. If you go with a 14-gauge cord, it will power most tools.
Now, that you are aware of the correct usage of these power cords in your workshop, read ahead to know when you need to toss out and buy new power cords:
  • No mentioned certification or rating on the cords.
  • The cord doesn’t contain a three-prong plug and a connector.
  • The cord’s plug has same-size blades instead of modern plugs that insert into an outlet one way.
  • The wires have exposed the wiring.
  • The cord and plug have a poor connection.

Concluding

The Power Cords are products that are easily misused, something that can turn into a major safety hazard. The uses of Power cords are varied by the equipment choice. But the dangerous situations arise when you substitute a longer, thinner, higher gauge cord than the recommended gauge. To eliminate such situations, you should consider investing in high-quality, thick-gauge power cords in different lengths for your workshops. This Blog Post is Originally Posted here; Things to Keep in Mind When Using Power Cords for Workshops

If you found this article useful, here are some others that may be of interest. 

What are Power Cords? Which Cord Powers Your Computer?
A Safety Guide to Handling Power Cords
What are the Uses of Hospital Grade Power Cords

Comments

Popular posts from this blog

Power Splitter vs. Extension Cord: Which One Is Right for You

Power distribution is a crucial aspect of managing electrical devices efficiently. When faced with the need to connect multiple devices to a single power source, two popular options come to mind: power splitters and extension cords. Understanding the differences between these two solutions is essential to ensuring optimal power management and safety. In this article, we will explore the features, applications, and considerations associated with power cord splitters and extension cords, helping you make an informed decision on which one is right for your specific needs. Power Splitters: Unleashing Versatility  Power splitters, also known as cord splitters or power cable splitters, are designed to divide a single power source into multiple outlets. These devices allow you to connect several devices simultaneously, expanding the number of electrical connections available. Power cord splitters come in various configurations, including three-way, four-way, and even more complex ...

How to Connect Tablet to External Monitor or Flat-screen TV Using Computer Adapters?

Tablets have numerous use cases. They have brought a radical change in the user experiences with larger display as compared to smartphones. You can enjoy videos and movies more on tablets as compared to smartphones. But, what if you are craving for a bigger screen? What if you want to view videos or movies on a screen that is larger than a tablet? Well, grab your popcorn and tie your seatbelts as you can enhance the multimedia experience by connecting tablet to an external monitor or a flat-screen TV. Watch movies the way you watch them in theatre. And what gives you a better viewing experience?  Computer adapters . Here is a brief yet step-by-step guide to enable you to connect tablet to a larger screen: Check Your Tablet’s Ports Firstly, take a close look at the tablet’s ports. It is necessary because the ports of the tablets have started advancing with every passing year. Traditionally, tablets had just video ports. Now, the new tablets have USB-C or USB Type-C ports. ...

Fiber Optic Cables Vs Ethernet Cables: What Is the Difference?

Wi-Fi is like love. Always in the air and ready to connect you with the fascinating digital world. But ever wondered what keeps it in the air? Well, just like any relationship has a foundation of understanding, a wireless network has a fiber cabling underneath that helps people to connect with the internet anytime they want to. The other most popularly used cable type is Ethernet cables. They are used everywhere right from IP camera technologies to LED lighting. These cables are quite cheaper as compared to fiber cables; but when one wants to have a huge and powerful network cable , fiber cables become necessary. Both the cables have their advantages and disadvantages, specialties, and limitations. Through this blog, we will differentiate between the two and try to understand both in details: History of Fiber & Ethernet Cables The fiber optic technology was first used in 1969 when NASA sent it to the moon for use in television cameras. And a company named Xerox developed Eth...