conduit bending cheat sheet 100% working 6G0+

💾 ►►► DOWNLOAD FILE 🔥🔥🔥🔥🔥 The math and formulas that make up a simple conduit-bending guide are actually quite simple and easily learned. The only tools you need for. The math and formulas that make up a simple conduit-bending guide are actually quite simple and easily learned. The only tools you need for more. Learn how to how to bend plastic pipe or conduit using a pipe bender. Calculate where to place your first mark on the conduit using these formulas. Conduit Bending Cheat Sheet Lots of interest. Over 20 people looked at this in the last 24 hours. Nice choice! Enjoy free shipping to the US. 9 Turn on formula protection. Bend Offset. This program or spreadsheet has been developed over several years by me and several of my working partners. It started out as an electronic notebook. I could write down the measurements once, and then find it the next time I needed to make a bend on a specific conduit size. It has become a very useful tool. I have been using spreadsheets for a long time to do budgets, projections, contact lists, and others so it was kind of fun to create a conduit bending tool to help me and my partners do a better job of bending conduit. It is a changing document. When I discover a new need or new piece of information, I like to update the spreadsheet to make it an intuitive and easy to use program. It is just a very special calculator. You input a value, you get a result. The program takes a little practice to understand. It is full of tricks and contains information you need every time you bend conduit. Throw away your calculator; use the Repeatable Conduit Bending program. I think you will like it. I will look forward to your input. If you have good ideas, or find problems with the spreadsheet I encourage you to contact me at cliff cliffhangertools. Turn on formula protection The program may show up with protection already applied to the program. If it is jump to next section. This sheet uses the metric measuring system. I discovered the metric system works well for conduit bending. No need to convert from fractions to decimal or decimal to fractions. There are 25 marks in an inch, so it is more precise than sixteenths. When you and your partner adopt the metric system I think you will enjoy using the metric page. The National Electrical Code also lists conduit in metric sizes. An orange box contains a list. When you click on the orange cell an arrow will appear, when you click on the arrow the list will appear. Select the desired value; the box will close with your chosen value filling the row with the related values visible. In a blue cell, input a measurement for your current task the spreadsheet will calculate the value in a yellow or clear cell. More information about the function of specific cells will be covered in following descriptions. This sheet uses the standard measuring system. You can input information in decimals or fractions. Each bender has a personality. This sheet contains the Standard information that you input when you make your initial 90 degree bend on the current bender you are using. This sheet contains the Metric information that you input when you make your initial 90 degree bend on the current bender you are using. There are two pictures on these Facts pages. Deduct is a measurement that allows a conduit stub to rise to a desired length. When you consistently find the same zero mark for every bend you make, you will be able to repeat bends every time. Travel is the distance a conduit is pulled thru the bender to make a 90 degree bend. Bend a True 90 degree bend. Subtract BT from BZ. This measurement is also the minimum stub length that your bender will bend. Gain: Gain is an increased length of conduit that is created when bending conduit. Input this value in the Gain column of the Conduit and or Metric Facts sheet for the appropriate size and type of conduit. Back to Back: Back to Back is a measurement that is added to the conduit mark that determines the distance between back to back bends. After the first ninety degree bend is made the conduit is removed from the bender and rotates degrees to make the final stub. The program calculates this measurement and automatically inputs the value into the B to B column. The cell below the Bend Mark cell 1b is the calculated value that determines the front of shoe mark for Stub A based on the value input from the cell below 1 c. There is a freeze pane inserted after row 42 and sometimes you cannot scroll through the entire list, because of the freeze pane. Place Segment Travel mark cell below 1 f on conduit behind stationary point of bender. Place 90 degree travel mark on conduit behind the stationary point at back of bender. Enter distance between Back to Back bend in blue cell below 1d Length B. Attach Cliffhanger Conduit Level on conduit at front of conduit and level. Remove conduit from bender and verify bend, stub length and back to back measurements. The values are copied from Facts sheet or calculated with formulas and input values from other cells. These columns contain the value for the radius of a 90 degree bend for the appropriate size of conduit. The value in cell 42 c is the measurement you add to the overall cut length of conduit when making an offset or a kick. When you want to kick a conduit with a 90 degree bend on it, the center of the kick bend becomes the adjacent angle of a right triangle. We have created a Deduct from Center of Bend value that allows the hypotenuse of the triangle to meet the adjacent side of the triangle so the desired kick height, or opposite side, will rise to the correct height. The cells 42 d thru 42 h contain the value you deduct from the center of a bend mark to find the front of shoe mark when the bend is less than 90 degrees. The height of an offset or kick multiplied by the cosecant of the selected angle creates Mark BB distance between bends. Rotate conduit degrees and level Cliffhanger Conduit Level at back of conduit. Distance between bends Mark BB 42 b is marked on conduit from back of 90 to center of kick bend. When you know two sides and an angle you can solve for the other unknowns. Sum: Enter a positive number to add or a negative number to subtract into the blue cells of the sum column. Click up or down or enter key. The total will calculate in the yellow cell 61 f. Multiply: Enter values into blue cells. Click left or right or enter key. The product will be shown in the yellow cell 56 g. Divide: Enter values into the blue cells. The product will be shown in the yellow cell 61 g. Calculates the developed length of bend, and the distance between segment bends for desired degrees of bends. Divide developed length into the desired number of bends with the distance between bends marked on conduit. The Cliffhanger Offset is a bend that moves a conduit from one position in a rack to a different position in the rack of conduit. It is a combination of 4 bends that are rotated 90 degrees after each bend. The four bends rotate in a clockwise direction, or the four bends rotate in a counter clockwise direction. The conduit rolls out of the rack offsets up or down and then rolls back into the rack in a different position. Determine the depth of offset needed to roll the conduit out of the rack. The thickness of the conduit plus a small space is typical, but if an obstruction is in the pathway any depth may be applied. Enter the value into the blue cell right of the offset one cell in the Cliffhanger offset chart. Determine the degrees to be used for the depth offset and enter the value in the cell below the Degrees cell in the chart. Bends one and three create this offset. Determine the height of the offset required to shift the conduit to its new position. Enter this value into the cell next to offset 2 cell in the chart. Determine the degrees to be used for the height offset and enter the value into the blue cell below the degrees cell in the chart. Bends two and four create this offset. Pick a start mark to begin. All other marks are measured from the start mark. Mark conduit with all four bend marks and place conduit into bender with the start mark at the front of the shoe. Find zero. Attach the Cliffhanger Conduit Level in the end of the conduit away from the bender. Level the conduit. Place the segment travel Mark A1 on the conduit behind stationary point on bender and bend to the mark. Shift conduit to Mark B2 at the front of the shoe. Rotate the conduit 90 degrees clockwise and level the attached Cliffhanger Conduit Level. Place the segment travel mark for Offset B on the conduit behind stationary point on bender and bend to the mark. Shift conduit to Mark A3 at the front of the shoe. Place the segment travel mark for Offset A on the conduit behind stationary point on bender and bend to the mark. Shift conduit to Mark B4 at the front of the shoe. An adjustment must be made to the layout of the second and each subsequent pipe in the group to prevent the ends from being staggered. All bends should use the same radius for maximum satisfaction. Enter the outside diameter of the conduits used in the parallel offset chart. Enter the desired spacing in the blue cell at 87 b. Enter a start mark measurement or zero if you are starting at the end of the conduit. Determine the number of degrees desired to create the offsets. Enter value in the offset chart cell 42 b. Click right, left of enter key. This calculates the distance between bends and the segment travel needed for your chosen degree. It also calculates the bend marks for each conduit with the adjustment to each subsequent conduit included in the next conduits marks. These rows and columns contain the values for degrees from 1 to 89, the mark between bends and the cosecant for the all angles. The cosecant is the value from a Trigonometric Table based on a selected angle used to find the distance between bends to create offsets and kicks when multiplied by the height of the offset or kick. Find the angles of Right Triangle by entering values of know sides of triangle into blue cells to determine Sine, Cosine, and Tangent values. Subscribe to Our Newsletter. Quick Links. Contact Info Cliffhanger Tools Email: cliff cliffhangertools.