Garage Door Spring Calculator

Garage door springs are essential components of garage door openers as they provide the force necessary to move the sectional garage door. There are two type of springs used within garage doors: torsion and extension. The torsion spring is mount above the garage door.

The torsion spring stores energy when the garage door closes. The torsion spring also releases that energy to allow the garage door to rise. The torsion spring balances the weight of the garage door, allowing the door opener or the person to open and close the garage door.

How Garage Door Springs Work and How to Choose the Right One

Extension garage door springs also balance the weight of the garage door. However, extension springs are located on the side of the garage door. The spring must balance the garage doors weight.

If the spring does not balance the weight of the garage door, the garage door will feel heavily when opening or closing. It might also damage the garage door opener. The weight of the garage door is the single most important measurement needed to calculate the requirements of the garage door spring.

The weight of the garage door can be challenging to find. Many people will refer to published tables of the weight of different types of garage doors. However, this can be inaccurate if the garage door has any extra window or hardware.

To find the weight of the garage door, use bathroom scales and place them under each corner of the garage door. The weight of the garage door will allow the spring to be calculated. The radius of the garage door drum must also be known.

The radius will impact the torque of the garage door. Torque is equal to the weight of the garage door multiplied by the distance from the center of the door shaft to the center of the garage door cable. A larger radius will create a larger torque with the same weight of the garage door.

Garage door winding turns refers to the number of turns of the spring shaft required to operate the garage doors springs. The length of the garage doors cable will be the distance the spring shaft will travel as the garage door rises. There will be a fraction of a turn for the springs preload.

The winding turns of a garage door spring should not be more than one and a quarter turns away from the calculated winding turns. If the winding turns of a garage door are this many turns away from the calculated number, then the calculated measurement are likely incorrect. The winding turns will vary for different types of garage door tracks.

They are calculated for a standard set of tracks. Thus, the calculated winding turns are just an estimate of the winding turns required for the garage door spring. The spring rate is a measurement used for torsion garage door springs.

The spring rate is the amount of torque that a torsion spring will deliver for each turn of the wind of the garage door spring. To calculate the spring rate, divide the amount of torque that each spring will deliver by the number of winding turn of the spring. The calculation is different for extension garage door springs.

Extension garage door springs use a different measurement to express the springs capacity. The pull of the extension spring is calculated by dividing the weight of the garage door by the number of extension spring. This value will then be multiplied by a safety margin.

The cycle life of the spring is another specification that can be used to determine the cycle life of the garage door spring. A spring with a high cycle life will last longer than a spring with a low cycle life. A garage door that requires a spring with a 50,000-cycle life will require a different size wire than a garage door that requires only a 10,000-cycle spring.

The wire diameter of a garage door spring is the final specification when purchasing the spring. The wire diameter is usually within a range. The spring that is purchased must have the correct inside diameter to fit the garage doors shaft.

The garage door spring will also need to have the correct length. This length will determine the spring rate. The spring must also have the correct wind direction.

Using the incorrect wind direction for installing the garage door spring will cause the spring to unwind. Two spring that appear to be the same may have a different wind direction. The calculations performed for the spring will differ from the actual operation of a garage door.

Environmental factors will impact the operation of a garage door. If the garage door is metal and is exposed to the sun, the metal will heat up, and the spring will create more torque to overcome the heat of the metal garage door. Additional friction will exist in the rollers or hinges of the garage door.

This will make the garage door feel heavy. The garage doors springs will have to work harder to open or close the garage door. Any unbalanced garage door will wear down the garage door opener and the cable over time.

A garage doors balance margin allows for some extra flexibility in the springs design. However, eventually, you will have to test the balance of the garage door by hand when installing the springs. If the garage door spring is correctly installed and balanced, when the garage door is lifted to the height of an adults shoulder, it will stay in that position by itself.

Many individuals will attempt to install the largest garage door spring possible. Using an oversized garage door spring, however, is not the best solution. An oversized spring will store more energy than the garage door require.

The extra energy will place more stress on the garage door shaft and the bearing plate. Using an undersized garage door spring will also cause the garage door to feel heavy. Additionally, the spring will wear out more quickly than one that is the correct size for the garage door.

Thus, the calculators purpose is to find the most realistic target for the size of the garage door spring. Torsion garage door springs are dangerous. They store a great deal of energy.

If the torsion spring is not properly installed or maintained, the energy that it stores can be released in a way that causes serious injury to a human being. Professional garage door spring installers use specific tools to install these spring. They also follow the procedures that the garage door manufacturer makes available to install the springs in a way that ensures their safety.

If you are not trained in the techniques and tools needed to install a torsion spring, dont attempt to do it yourself. Instead, hire a professional garage door spring installer to complete the job. To find the correct garage door spring, you must weigh the garage door, and the diameter of the spring drum must be determined.

The cycle life of the spring can also be chosen. The calculator will do the math for you. However, you will have to provide the measurement of the garage door and its drum radius.

Once you have found the correct springs and ensured the garage door is balanced, the springs will function correct in the background.