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Lincoln Bell
Lincoln Bell

Buy Cordless Drill Driver



Why does everyone down play Ryobi? For years I have been using the so-called top of the line tools and I have to say Roybi has better quality and better tools than the top of the liners, granted Ruobi might not make all the tool needed but the basic tools that used are just as good. With that said I agree with this article on the drills




buy cordless drill driver



The handle base flares to prevent hand slippage and accommodate a battery. Because the battery is centered under the weight and bulk of the motor, a T-handle provides better overall balance, particularly in heavier drills.


An adjustable clutch is what separates electric drills from cordless drill/drivers. Located just behind the chuck, the clutch disengages the drive shaft of the drill, making a clicking sound, when a preset level of resistance is reached.


The number of separate clutch settings varies depending on the drill; better drills have at least 24 settings. With that many clutch settings, you can really fine-tune the power a drill delivers. Settings with the lowest numbers are for small screws, higher numbers are for larger screws. Most clutches also have a drill setting, which allows the motor to drive the bit at full power.


The least expensive drills run at a single speed, but most have two fixed speeds: 300 rpm and 800 rpm. A slide switch or trigger lets you select high or low speed. These drills are ideal for most light-duty operations. The low speed is for driving screws, the high speed for drilling holes.


That's why I tested out 16 of the most popular drills on the market and gathered what I found out here. Grabbing the best cordless drill for your toolbox will probably come down to the types of features you want, your budget and whether you already have a brand in mind. For now, I'll set aside a few categories of drills.


Though impact, hammer, combination and rotary drills all have their uses, for this roundup, I focused on the typical driver, which'll help you accomplish most DIY or home improvement jobs -- whether you're drilling holes in studs, driving drywall anchors or piecing together a home project. A lot of today's drills also include features such as an ergonomic handle and belt clip, making them a pleasure to use.


If you're stuck on the kind of drill to buy, the answer can be complex. For starters, if you own other cordless tools, the best cordless drill for you is the one you could share batteries with. That's a great reason to stick with the brand and voltage you already own, unless you specifically need different features or you're looking to switch brands. Otherwise, assuming this is your first cordless tool, it comes down to two main factors -- performance expectation and price. If you're only assembling Ikea furniture and hanging shelves, a 12-volt drill is all you need. If you're planning on getting into more substantial work, longer use times or light construction, you're better off with an 18-volt.


As far as price is concerned, you will typically pay more for 18- over 12-volt power tools, as well for brushless versions over brushed. But the price gap between 12- and 18-volt, and between brushed and brushless, continues to shrink. Soon, unless you need a smaller, lighter or less powerful tool, there will likely be no reason to choose 12-volt over 18-volt. Hopefully you'll still at least have the option for the lightweight drill model.


This list only covers 12- or 18-volt drills with brushed motors. Brushed motors are the traditional power tool design that have physical carbon brushes that maintain contact with the part of the motor that spins. That means the brushes see constant friction when the drill is in use and will eventually wear out. That friction generates a fair amount of heat, leading to as much as a 20% loss in torque efficiency (energy that is transformed to rotational force) compared with brushless motors. Brushless motors work primarily by way of magnets and have no physical, friction-inducing parts. This efficiency gain gets you better performance and drilling power over the course of a battery charge compared with the same drill in a brushed model.


The trick is that you might need to pay extra for a drill with a brushless motor. For example, I tested the Milwaukee brushed motor Model 2606-22CT, which costs $179. The brushless version, Model 2801-22CT, normally costs $20 more. Holiday deals might narrow that gap (or even make some 18-volt drills cheaper than their 12-volt counterparts), so keep an eye out if you see a good power tool deal. I'll update this list with brushless drill tests on my next pass.


That said, in rare cases, some drills can fail at performing some of the basic functionality you might expect. Keep reading and you'll be sure to avoid those pitfalls and end up with the cordless power drill that will best suit your needs. I took 16 of the most popular brushed cordless drills, bored over 200 holes and seated over 4,000 screws over a few days to lock down performance expectations.


Although it's the most expensive 18-volt drill, this Milwaukee drill has tons of drilling power. It crushed the competition in our high-torque tests, completing 20% more bored holes than the second-place finisher. At 500 inch-pounds, no other drill has a higher maximum torque rating. It has one of the better warranties, with five years for the tool itself, and two years for the battery. This cordless drill kit includes an M18 compact half-inch drill driver and two M18 lithium-ion batteries.


This Bosch drill is dynamite -- explosive performance in a small package. It topped the performance scores across the board and came in second in our measurements for getting into the tightest spots. It has all the bells and whistles you'll find among 12-volt brushed drills, but you will pay for all this handy goodness, as this drill is tied for second most expensive in the category. This drill combo kit includes a two-speed driver, screwdriver bit, clutch settings, and precise torque settings for accurate screw driving and drilling.


This is the second most expensive of the 18-volt drills on the list, but if you need to get into a tight spot, this is the drill for you. This compact drill centers at 1-33/64 inches, which may be a far cry from the Black & Decker 12-volt pick at 1-18/64 inches, but it still beats out the next best 18-volt option by 7/64 inches.


With overall midlevel performance, a keyless chuck for easy drill bit changes, and the lowest price tag on the list, this cordless drill is a solid pick. I measure down to the 64th of an inch for clearance in tight spots. At 1-18/64 inches side clearance, this drill gets into tighter spaces than any other I've tested, although it's worth noting that our overall pick, the Bosch PS31-2A was just behind at 1-19/64 inches.


This category was almost too close to call. The Ryobi's performance, drilling power and specs were nearly identical to the Bosch. So it boiled down to how each drill felt during the performance tests. This Ryobi felt like it could be the most powerful drill on the entire list, while the Bosch just felt weak and had trouble breaking through the two-by-fours during the high-torque bore test. Although the Bosch scored second overall in the low torque test and third in high torque, Ryobi took first in low torque. Combined with the overall feel of the two drills, it puts the Ryobi drill kit as the value pick.


For the 12-volt brushed variable speed trigger cordless drills, Tacklife offered near-optimal performance at only 0.5 unit per amp hour shy of first place in our light duty battery tests. Its body size is one of the bulkier options, but it does have a battery life LED indicator, variable speed and is priced near the bottom of the pack to be named best value.


All of the drills I tested are brushed models that use a 12- or 18-volt battery. You can find different bundles online and in your local big-box retailer, some with extra batteries, some with only one battery and some that are even packaged with other power tools or bare tools only. To keep the pricing comparison as level as possible, each of these includes the drill, a charger, one (or two) batteries and, in most cases, some kind of accessory to carry everything around.


Other than general use and impressions, I have three main ways of testing drills. There's a clearance test, where I determine the tightest space the drill can get into and still drive or drill at a perfect 90-degree angle perpendicular to the drilling surface. Then there are two different types of power/longevity tests; one with a high torque load and one with a lower load.


For the high-torque test, I use a new 1-inch wood spade bit for each drill. I use the bit to drill a series of holes into standard yellow pine construction grade lumber. After, I divide the number of holes drilled by the battery capacity which gives a "holes per amp hour" data point for comparison. I like this particular metric method because it negates the ability of a drill to win just by having a larger battery.


On this test, the numbers for the 12-volt drills are pretty low -- so if you're looking to bore a lot of holes, it's probably best to stick with the 18-volt drills. For the most part, all of the 18-volt drills felt strong starting this test off with a new battery, and although it did score second-to-last here, the Ryobi felt the strongest out of the gate. There's also the breakthrough feel -- how well the spade bits are able to exit the opposite side of the lumber without snagging and seizing. Here, it was Milwaukee that really showed off. Not only did Milwaukee absolutely trounce the competition, but the spade bit moved from one side of the lumber to the other with almost no snags. On the opposite end of the scale, both Bosch and Ridgid seemed to have trouble exiting the boards almost every single time.


In the low-torque tests I took some screws -- a ton of screws -- and drove them into standard four-by-four construction lumber. Drive in as many as possible until the drill can no longer completely seat a screw; i.e. flush or slightly below flush with the lumber, then count. I use the same previously described method here, dividing by amp hour to get our final metric. The original tests for 12-volt drills used #8 2 1/2-inch screws, and the 18-volt tests use #9 3-inch screws. 041b061a72


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