Best Stanley Laser Measure – What Is It?
The Best Stanley Laser Tape measures are manufactured by Stanley. They have been around since the early 1970’s. Their products are used in many industries such as construction, mining, agriculture, engineering and manufacturing. The company was founded by William Stanley (1872–1948) and his wife Edith (1878–1959). They started out making sewing machines. Later they moved into other types of machinery and eventually into electronics. Eventually they sold their business to General Electric in 1947. By 1949 Stanley had become one of the largest manufacturers of electronic equipment in the United States.
In 1951, Stanley introduced its first portable tape recorder called the TABLESTRINGER which could record up to five hours worth of audio at a time. This device was very popular among engineers and others working with large amounts of data.
In 1958, Stanley introduced the first digital tape recorder which could store over 1,000 songs. These devices were also extremely popular amongst musicians and producers due to their ability to make music recordings much easier than before.
Stanley continued to innovate and improve upon these devices until it finally became the Stanley Electro-Mechanical Company in 1971. In 2006 the company officially became known as the Stanley Electronic Hardware Company.
Today their headquarters is located in New Britain, Connecticut.
How Does It Work?
The Best laser measures help you to measure a large number of different things. These devices fire a quick burst of laser which accurately measures how far away an object is from the device. Then by using some fairly complex mathematical formulas it can quickly give you the length or area of whatever you are trying to measure. The nice thing about these types of devices is that they are fairly easy to use and give you highly accurate results in a very short amount of time.
It’s really important that you only measure objects that don’t move while using one of these devices. If whatever you are measuring moves even slightly, then the results will be completely inaccurate.
These devices also don’t give you exact measurements. There is always going to be a small margin of error. These are especially prone to larger margins of error on longer distances or for larger areas. Still, these are by far the best and most accurate measuring devices on the market. They are used in a wide variety of different industries for tasks such as mining, construction, manufacturing and more.
How Do I Use It?
Most of these types of measuring devices have three different modes. You can get an overall measurement of an entire area, a length measurement or a volume measurement. To take a volume measurement, just press the volume button. Then it will ask you to enter the dimensions of the space you want to measure in feet. Then the device will ask you to enter the length, width and height of that enclosed area in feet.
The device has a small screen on it where it displays all of this information. It also has a row of buttons where you can scroll through all of the different options.
To measure a straight line just press the button for the mode you want, then press length. Now just aim the laser at the starting point of your line and press the trigger button. Then move the device until the laser touches your ending point and press the trigger. The device will then give you the length of that line in whatever measurement units you chose.
These types of devices can get very complicated depending on which brand or model you buy. Some are extremely simple with only a few different options while others have numerous features including the ability to make 3-Dimensional graphs and more.
If you are a professional who uses these types of tools on a regular basis then you will probably want to buy the most expensive and most high-tech one you can afford.
Some of these come with cases for protection, others have mounts that allow you to easily attach them to your tool belt and some even have magnets on the back so you can stick them to metal surfaces. You really just need to decide how much you are going to use it and how much money you want to spend.
Things to Consider Before Buying
There are a few things you will want to think about before buying a laser measuring tool. The first thing you need to think about is how often you are going to use it and how much money you want to spend.
These devices can range in price from around $20 all the way up to $1,000. Some of the more expensive ones have many different features including the ability to create 3-Dimensional models of objects.
Another thing to think about is exactly how accurate you need it to be. Most of these are accurate to within 1/8th of an inch at a maximum distance of 10 feet.
Others have a higher degree of accuracy but they typically cost a lot more money.
It is also important to realize that these are not going to give you exact measurements all the time. Some of the less expensive ones are not even all that accurate for distances under 10 feet.
If you are planning to use it for work you should probably buy a higher quality model so that you will be able to rely on the measurements that it gives you.
These devices are also occasionally referred to as “tape measures” even though they are obviously much more advanced than that old-fashioned device. You can buy these either at your local hardware store or you can buy them online.
You might also want to consider a model from a hobby store, some of the more advanced ones are oriented towards people who do crafting and incorporate a round wheel that allows you to get measurements in inches as well as metric measurements.
Consider buying one with a case or a mount to attach it to your tool belt if you are going to be using it for work. The ones that have the magnets on the back are especially useful if you tend to work on projects around the house.
You can simply stick it to the steel door of your refrigerator and not have to worry about laying it down somewhere and then forgetting where you put it.
You might also want to buy an extra battery for your device. Most of them use a 9-volt transistor battery and it is not uncommon for them to die after only a few hours of usage.
If this happens to you when you are using it for work then you could end up with lost profits because you have to wait for a new battery to be delivered. Buying an extra one could save your job.
You should also buy the size of battery that is specifically made for your device. Some of the cheaper models will take off-brand batteries, but this can damage the device and might even be dangerous.
You do not want an exploding battery throwing hot acid all over you or someone nearby.
A laser measuring tool can be a very handy thing to have around if you do a lot of work outside or in your home. They are not that expensive and they can help you do your job better or help you with fun weekend projects.
Just make sure that you buy the right one for the type of work you do and if you are planning on using it for professional work then buy a higher quality model so that you can rely on it to give accurate measurements.
Sources & references used in this article:
LIGO: The laser interferometer gravitational-wave observatory by A Abramovici, WE Althouse, RWP Drever… – …, 1992 – science.sciencemag.org
Evaluation of non-formalin tissue fixation for molecular profiling studies by JW Gillespie, CJM Best, VE Bichsel, KA Cole… – The American journal of …, 2002 – Elsevier
Laser applications in the trachea and bronchi: a comparative study of the soft tissue effects using contact and noncontact delivery systems by SM Shapshay – The Laryngoscope, 1987 – Wiley Online Library
VEGF Trap complex formation measures production rates of VEGF, providing a biomarker for predicting efficacious angiogenic blockade by JS Rudge, J Holash, D Hylton… – Proceedings of the …, 2007 – National Acad Sciences
Comparison of magnetic resonance images and the histopathological findings of lesions induced by interstitial laser photocoagulation in the brain by RA Tracz, DR Wyman, PB Little… – Lasers in surgery …, 1993 – Wiley Online Library
Pulse length dependence of laser conditioning and bulk damage in KD2PO4 by JJ Adams, TL Weiland, JR Stanley… – Laser-Induced …, 2005 – spiedigitallibrary.org