I believe **guy** attachment location on the mast will at about 250m, anchor radius will be about 180m. I anticipate **guy** **wire** diameter will be in the range of 75mm or more. The **guy** will have high initial tension once installed. The straight length is 308m with above parameters, but there will be significant sagging in the **wire**. **Guy** **Wire** Length Calculator. Input either 2 sides or one side and one angle. Press 'Calculate' to find the remaining values. Side a Side b Side c Angle A.

Attach fully-extended turnbuckles to **guy** wires about a foot from each screw eye (Figure 3). Run the screw eye ends of the wires through the eyes and pull the wires equally taut. Be sure the mast remains vertical during this procedure. Wrap each **wire** around itself at least six times. The final tightening of the **guy** wires is accomplished by. Guying Software. Calculates required guys and anchors using NESC or GO95 overload factors, **pole** data, **wire** size, tension, span lengths, deadend tensions, line angles, transverse wind & ice loading. (NEW =>) A new headguy tab calculates required headguys between two poles, and downguys on the second **pole**, all at the same time. An alternate.

This formula is wide-known as that for the catenary curve. Cable sag (h) is value of cable form equation for point l/2 (formula 12), where l is the straightline distance between the position transducer and the application (Figure 1). For cable length, we will use the formula for the length of the catenary curve (formula 13). Measuring Angles by Tape Measure Method Measuring Small Angles from Adjacent **Pole** by Tape Measure Method Deflection Angle from Two Traverse Bearings Ground Rise/Depression Along Span STRENGTH (**POLE** CLASS, INSULATOR AND **POLE** SETTING) **Pole** Class Based on Unguyed Structure *Maximum Angle Based on Insulator Strength ***Pole** Setting Depth GUYING. The tension in the **guy** **wire** and the anchor is the longitudinal load on the **pole** due to the conductor "H" divided by the cosine of the angle "A". The angle "A" is the arctangent of the **guy** attachment height divided by the **guy** lead. A = tan-1(35'/20′) A = 66.9 degrees. T = 3601 lb / cos 66.9. T = 3601 / .496. T = 7260 pounds.

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Level span sag can be calculated by the approximate parabola method: S = WcL^2 / 8Th. Where: S = Sag @ center of span in meters or feet; Wc = Weight of the conductor in kilograms per meter or pounds per foot;** L** = Span length in meters or feet and Th = Horizontal tension in Newtons or pounds. Obviously, the units chosen must be consistent. 12" 16K Silicone Coated **Guy** Strain, Clevis / Clevis + 1 Roller. By CHANCE Utility. Catalog ID: GS16012CC1SC. 12" Silicone Coated Fiberglass **Guy** Strain; 16,000 lb Series; Clevis / Clevis + 1 Roller. Compare. View Details. Resource Quick View. Power & Amp - The amount of voltage running through the lines is related to the power and amp. The power and amps depends on the type of circuit phase, you are operating on. Cable Run - Cable run is the length of the cable, you are going to use while wiring your house or workplace. Make sure you check the resistance and thickness of the **wire**. 04/02/12 "**Calculation**" tab, added a check for the Code which is being referenced; NESC or GO95 (cell BZ15). 04/04/12 "**Calculation**" tab, added display of what type of moment **calculations** are required per 2012 NESC (cells E65 & F65), based on the **pole** height entered and if guys are present (groundline only, all along the **pole**, or at **guy** points) 04/04/12 "Deflection" tab, deleted. **Analysis Report – Page 1**. Figure 1. Page 1 of Analysis Report. **Pole** Num – set by the user in the data entry panel. Aux Data Fields 1-6 – In this example, lines 2-7 on the left-hand side (PM Order Number – Aux Data 6) show where a user can enter custom fields. When a user chooses not to enter custom fields, these lines are left as is. **Guy wire /** stay **wire** force **calculations**. Hi, So I got asked this question today and I was kinda baffled that I couldnt do it. NOTE: I have not had much statics in school and that is almost 10 years ago. So this is the case: Find the force/tension needed in the **guy wire** to support the electric mast/**pole**, as well as the angle. Automatic **calculation** of dead and wind loads. Automated loading on structure (wind, ice and drag ... **wire** frames or can be rendered as 3-d polygon surfaces. CAD design ... PLS-CADD customize structure command for moving structure.

I believe **guy** attachment location on the mast will at about 250m, anchor radius will be about 180m. I anticipate **guy** **wire** diameter will be in the range of 75mm or more. The **guy** will have high initial tension once installed. The straight length is 308m with above parameters, but there will be significant sagging in the **wire**. Lead of the **guy** **wire** is the term commonly used in the art to designate the distance from the **pole** to the point of entry of the **guy** into the ground. The ratio, lead divided by height, represents the. 04/02/12 "**Calculation**" tab, added a check for the Code which is being referenced; NESC or GO95 (cell BZ15). 04/04/12 "**Calculation**" tab, added display of what type of moment **calculations** are required per 2012 NESC (cells E65 & F65), based on the **pole** height entered and if guys are present (groundline only, all along the **pole**, or at **guy** points) 04/04/12 "Deflection" tab, deleted. **Wire** Size **Calculator**. Enter the information below to calculate the appropriate **wire** size. Voltage - Enter the voltage at the source of the circuit. Single-phase voltages are usually 115V or 120V, while three-phase voltages are typically 208V, 230V or 480V. Amperes - Enter the maximum current in amps that will flow through the circuit.

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The **calculator** was designed principally for antenna **wire** spans, but can model **guy** wires (as rigged, tensioned without wind loading). Use a safety factor of 1, wind speed 0, set the GBS to the design working tension (often around 10% of GBS for the **guy** material), enter the mass per unit length of the **guy** material, and **wire** diameter (though it is not used), and enter the end point. **Guy** **wire** tension **calculation** You should also be able to determine the tension of the **guy** **wire**. This will determine the performance and overall effectiveness of this cable. There is a formula for calculating the **guy** **wire** cable tension. Cable tension= Total Tension× **guy** length/Anchor distance.

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with **guy** **wires** and anchors. Selecting a Tangent **Pole** Class The ﬁ rst step in choosing a **pole** length and class to support a designated set of conductors for a tangent line section is to calculate the transverse ice and wind load on the **wire**. To determine the amount of transverse load on a span of conductor, the load. strengths for **guy** anchors are very dependent on the type of soil conditions in which the anchor is placed. Below is a table to quantify typical holding strengths for anchors. TABLE 1: ANCHOR HOLDING STRENGTH Anchor Type Holding Strength Poor Soil Good Soil Single-Helix 6,000 pounds 10,000 pounds.

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For average soil you would need a 10 ft depth and a 50 ft **pole**. For good soil the 45 ft class H2 would probably work. 3) 2,000 lbs of design tension (a reasonable number for the high end) would require a class 1 **pole**. 4) A 2,000 lb design tension would require a concrete **pole** (there is no "H7") to be **guy**-less. 4. **Guy** Stub-A **guy wire** installed between a line **pole** and a stub **pole**. The span **guy**, **guy** stub **pole**, and the down **guy** make up the **guy** stub. 5. Push **Pole**-A **pole** used as a brace to a line **pole**. 3. Head **Guy**-A **guy wire** running from the top of a **pole** to a point below the top of the adjacent **pole**. Not Less Than 8'-0" Not Less Than 8'-0" Head **Guy**.

. · A **guy** - **wire** , **guy** -line, **guy** -rope or guide- **wire** , also known as simply a **guy** , is a tensioned cable designed to add stability to a free-standing structure.They are used commonly in ship masts, radio masts, wind turbines, utility poles , fire service extension ladders used in church raises and tents.A thin vertical mast supported by **guy** wires is called a guyed mast. The installed tension for **guy wire** is typically 10% of the **wire**’s breaking strength. Initial tension may be mesured by vibration frequency, mechanical tensionmeters, measurement of **guy** sag, or by other suitable methods. Direct and indirect are the two common methods of measuring **guy** tension on towers. The direct method uses mechanical or. The tension in the **guy wire** and the anchor is the longitudinal load on the **pole** due to the conductor “H” divided by the cosine of the angle “A”. The angle “A” is the arctangent of the **guy** attachment height divided by the **guy** lead. A = tan-1(35’/20′) A = 66.9 degrees. T = 3601 lb / cos 66.9. T = 3601 / .496. T = 7260 pounds. 1 day ago · **Guy wire**, also known as stay **wire** and a messenger **wire**, is used on the overhead line construction purposes.The **guy wire** is assembled with a **guy**.Our **guy wire** kit for a 25ft utility **pole** includes the 6ft anchor rod, insulator, **guy** wraps, thimbleye bolt, square washer, **guy** anchor, and **guy** line.**Guy Wire** Line Kit with 6ft Anchor Rod for 25ft **Pole** - Close Lumber from Close Lumber.

**Calculation** This spreadsheet calculates following parameters of **pole**: Wind Load on Conductor/Span Total Bending Movement at Ground Level due to Wind Load on All Conductor Equivalent Safe Working Load at said Meter from TOP of The **Pole** corresponding to Wind Load on All Conductors Wind Load on **Pole** Surface above Ground Level. I believe **guy** attachment location on the mast will at about 250m, anchor radius will be about 180m. I anticipate **guy** **wire** diameter will be in the range of 75mm or more. The **guy** will have high initial tension once installed. The straight length is 308m with above parameters, but there will be significant sagging in the **wire**.

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Worked example. 20ft main **pole** with 2ft bracket spacing (the **pole** is **guy wire** supported) gives 18ft of unsupported length above the top bracket. If the collar. Lead of the **guy wire** is the term commonly used in the art to designate the distance from the **pole** to the point of entry of the **guy** into the ground. The ratio, lead divided by height, represents the tangent of the angle of the **guy**. To locate scale 6 with respect to scale 5, an angle of 45 degrees is assumed. The tangent of this angle is 1, and. the **guy** **wire** and the hardware to connect the **guy** **wire** to the **pole**. For analysis purposes, this bulletin discusses the **guy** **wires** and the **pole** attachment hardware separately and refers to the **pole** attachment hardware as the guying assembly. Table 4-1: RUS Guying Assembly Units presents the RUS standard distribution **guy** assemblies included in.

This beam deflection **calculator** will help you determine the maximum beam deflection of simply-supported beams, and cantilever beams carrying simple load configurations. You can choose from a selection of load types that can act on any length of beam you want. The magnitude and location of these loads affect how much the beam bends. Step 1: Tools Required. An RV with a manual awning. **Pole** to pull the awning down. At least 1 ladder (6' tall is good) A second ladder is helpful. A screwdriver - possibly with a special head (I used a #2 square head) A helper. 15 spare minutes. Add Tip.

Lead of the **guy** **wire** is the term commonly used in the art to designate the distance from the **pole** to the point of entry of the **guy** into the ground. The ratio, lead divided by height, represents the tangent of the angle of the **guy**. To locate scale 6 with respect to scale 5, an angle of 45 degrees is assumed.

Our recommended **wire** gauge **calculator** helps determine the correct **wire** gauge for your application based upon the input parameters of length, current, voltage and more. The recommend gauge is the result of applying ABYC Standards factors, allowable voltage drop and any additional derating factors. Circuit Voltage (VDC) 12. Load Current (Amps).

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I might try ther iced up **wire** at a deflection limit to rough out what size **pole**, sorry, angles would be needed. When I was assigned to the transmission and distribution group, I found that the **wire calculations** always seemed to be backward, or perhaps I had to think backwards, start with a deflection and find the **wire** to match. Our recommended **wire** gauge **calculator** helps determine the correct **wire** gauge for your application based upon the input parameters of length, current, voltage and more. The recommend gauge is the result of applying ABYC Standards factors, allowable voltage drop and any additional derating factors. Circuit Voltage (VDC) 12. Load Current (Amps). XII Street and Outdoor Lighting Removed limit of one **pole** installed for the outdoor light Sep 2011 VI-B Metering Equipment Restriction on use of multiple conductor lugs Oct 2011 XIII Safety Replaced “Notification of Facilities” with updated version Jan 2012 VIII Grounding To reflect clarifications to 2011 NEC Article 250 A utility **pole** is in rough shape and a homeowner. The **guy wire calculator** is one of the first in a series of browser-based modules that will be introduced by WirelessEstimator.com in coming months. They will replace the web site's estimating program introduced over six years ago. It will be discontinued December 31, 2010. Numerous companies still use it as a valuable tool for quick proposals. **Calculation** This spreadsheet calculates following parameters of **pole**: Wind Load on Conductor/Span Total Bending Movement at Ground Level due to Wind Load on All Conductor Equivalent Safe Working Load at said Meter from TOP of The **Pole** corresponding to Wind Load on All Conductors Wind Load on **Pole** Surface above Ground Level. For average soil you would need a 10 ft depth and a 50 ft **pole**. For good soil the 45 ft class H2 would probably work. 3) 2,000 lbs of design tension (a reasonable number for the high end) would require a class 1 **pole**. 4) A 2,000 lb design tension would require a concrete **pole** (there is no "H7") to be **guy**-less.

**Wire** Size **Calculator**. Enter the information below to calculate the appropriate **wire** size. Voltage - Enter the voltage at the source of the circuit. Single-phase voltages are usually 115V or 120V, while three-phase voltages are typically 208V, 230V or 480V. Amperes - Enter the maximum current in amps that will flow through the circuit. **Guy wire** line kit for 25' **Pole** includes: 34-ft of 1/4" Guyline cable. 1 of 5/8"x12" Angled Anchor Bolt. 1 of 6-ft Anchor Rod. 1 of 8" **Guy** anchor KA11020. 1 of Insulator for **Guy Wire** K502. 4 of 1/4" Formed **Guy** Wrap KXFWDE1104. 1 of 3x3x5/8" Bearing Plate Galvanized. View the **Guy Wire** Kit Installation Guide (PDF). The **pole** information, **calculation** loading criteria (NESC or GO95 grade of construction, loading district, or other ice and wind loading conditions), and conductor ... be comparable to other **pole** loading programs. The **guy** **wire** "status indicators" (on the "**calculation**" and "sum" tabs) only reflect **guy** information entered on the. **Guy wire**, is an Extra High Strength (EHS) cable that's available in both a 1 x 7 and a 1 x 19 configuration.Meets ASTM A475 or other international standards.It comprises of one or more zinc coated steel wires featuring tensile strength ranging from 35 Kg/mm2 to 180 Kg/mm2, making them suitable for every application.

View our **Wire** Weight and Length **Calculations** for the **Wire** Division. For more information please contact us at 888-843-2350.

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Optibelt WebCAP is an easy-to-use online drive design and tension **calculation** tool. It can be used without the need to register and there is no software to install. Click on the link above to go to the WebCAP site. WebCAP can be used for simple 2-pulley v-belt drives to design for optimal efficiency or to calculate proper tension values.

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Attach fully-extended turnbuckles to **guy** wires about a foot from each screw eye (Figure 3). Run the screw eye ends of the wires through the eyes and pull the wires equally taut. Be sure the mast remains vertical during this procedure. Wrap each **wire** around itself at least six times. The final tightening of the **guy** wires is accomplished by. cobra dirt bike price. **Guy wire** is used to stabilize and secure free-standing structures. It is commonly used by professional tower erecting companies to install towers in the antenna, communications and utility industries. The **Guy Wire** Name.**Guy wire** has many names. It is also known as guyed **wire**, **guy** cable, **guy** strand, and **guy** anchors. An alternate approach is to bury.

The tension in the **guy wire** and the anchor is the longitudinal load on the **pole** due to the conductor “H” divided by the cosine of the angle “A”. The angle “A” is the arctangent of the **guy** attachment height divided by the **guy** lead. A = tan-1(35’/20′) A = 66.9 degrees. T = 3601 lb / cos 66.9. T = 3601 / .496. T = 7260 pounds. Lead of the **guy** **wire** is the term commonly used in the art to designate the distance from the **pole** to the point of entry of the **guy** into the ground. The ratio, lead divided by height, represents the. Automatic **calculation** of dead and wind loads. Automated loading on structure (wind, ice and drag ... **wire** frames or can be rendered as 3-d polygon surfaces. CAD design ... PLS-CADD customize structure command for moving structure. The tension in the **guy wire** and the anchor is the longitudinal load on the **pole** due to the conductor “H” divided by the cosine of the angle “A”. The angle “A” is the arctangent of the **guy** attachment height divided by the **guy** lead. A = tan-1(35’/20′) A = 66.9 degrees. T = 3601 lb / cos 66.9. T = 3601 / .496. T = 7260 pounds.

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ASAP **Pole Guy Wire** Installation. October 12, 2020 / Design and Construction / Leave a Comment. Below are instructions for how I made the **guy wire** attachment points for my ASAP **pole** for the mega tree. The **guy wire** setup allows the mega tree to be anchored independent of the telescoping **pole**. View our **Wire** Weight and Length **Calculations** for the **Wire** Division. For more information please contact us at 888-843-2350.

1 day ago · **Guy wire**, also known as stay **wire** and a messenger **wire**, is used on the overhead line construction purposes.The **guy wire** is assembled with a **guy**.Our **guy wire** kit for a 25ft utility **pole** includes the 6ft anchor rod, insulator, **guy** wraps, thimbleye bolt, square washer, **guy** anchor, and **guy** line.**Guy Wire** Line Kit with 6ft Anchor Rod for 25ft **Pole** - Close Lumber from Close Lumber. sonar23: Maybe you could use superposition. (1) Apply your equipment with moment arm, without the **wires** attached. Compute **pole** transverse deflection at **guy** **wire** attachment point due to this applied moment M. (2) On a separate cantilever, with no **wires** nor equipment attached, compute applied transverse shear force V at **guy** **wire** attachment point required to deflect cantilever the same transverse. With the PoleForeman software, we can run **pole** loading and guying **calculations** in 10 minutes or less. SagLine helps determine conductor ground clearances and vertical clearances between supply and communications facilities to ensure NESC compliance. Like PoleForeman, the user interface is simple. **Guy wire**, is an Extra High Strength (EHS) cable that's available in both a 1 x 7 and a 1 x 19 configuration.Meets ASTM A475 or other international standards.It comprises of one or more zinc coated steel wires featuring tensile strength ranging from 35 Kg/mm2 to 180 Kg/mm2, making them suitable for every application. The tension in the **guy wire** and the anchor is the longitudinal load on the **pole** due to the conductor “H” divided by the cosine of the angle “A”. The angle “A” is the arctangent of the **guy** attachment height divided by the **guy** lead. A = tan-1(35’/20′) A = 66.9 degrees. T = 3601 lb / cos 66.9. T = 3601 / .496. T = 7260 pounds.

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Calculating **Wire**/Cable Size formula for Three Phase Circuits. **Wire** Circular mils = √3 x 2 x ρ x I x L / (%Allowable Voltage drop of source voltage) Note: the Value of ρ = Specific resistance or resistivity of Conductor is used here for copper and.

51. www.fullertonengineering.com Guyed Tower Maintenance – 5+ areas Basic maintenance covers 5+ areas: 1. Plumb & Tension 2. Tower Surface condition (Galvanizing) 3. **Guy** Anchor Shaft & Surface condition 4. **Guy Wire** Surface condition 5. Weed & Growth control 6. FAA marking (Paint and lights) if required 7. Calculating **Wire**/Cable Size formula for Three Phase Circuits. **Wire** Circular mils = √3 x 2 x ρ x I x L / (%Allowable Voltage drop of source voltage) Note: the Value of ρ = Specific resistance or resistivity of Conductor is used here for copper and.

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Posted November 2, 2009 (edited) My **guy** wires are at 16 feet from the trees center, where the ring is at 10 feet (20 ft diameter) - total of six **guy** wires, one set @ 22 feet, and one set at 45 feet. The back has two "spare" sets of guys that are not tight, as they are emergency guys. Tree tops out at 50' tall. Edited November 2, 2009 by fkostyun. The tension in the **guy** **wire** and the anchor is the longitudinal load on the **pole** due to the conductor "H" divided by the cosine of the angle "A". The angle "A" is the arctangent of the **guy** attachment height divided by the **guy** lead. A = tan-1(35'/20′) A = 66.9 degrees. T = 3601 lb / cos 66.9. T = 3601 / .496. T = 7260 pounds.

Optibelt WebCAP is an easy-to-use online drive design and tension **calculation** tool. It can be used without the need to register and there is no software to install. Click on the link above to go to the WebCAP site. WebCAP can be used for simple 2-pulley v-belt drives to design for optimal efficiency or to calculate proper tension values.

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The first method is to use a cable tension meter like our CTM2 or CBM CableBull models. These tension meters use a 3 roller system where the cable** passes under** the** outer** rollers and over a** center** roller** imparting** a** perpendicular** force on the** center** roller which is connected to a load cell. The force is displayed in lbf (pounds force), kgf. The first method is to use a cable tension meter like our CTM2 or CBM CableBull models. These tension meters use a 3 roller system where the cable passes under the outer rollers and over a center roller imparting a. **Guy wire**, is an Extra High Strength (EHS) cable that's available in both a 1 x 7 and a 1 x 19 configuration.Meets ASTM A475 or other international standards.It comprises of one or more zinc coated steel wires featuring tensile strength ranging from 35 Kg/mm2 to 180 Kg/mm2, making them suitable for every application. Lead of the **guy** **wire** is the term commonly used in the art to designate the distance from the **pole** to the point of entry of the **guy** into the ground. The ratio, lead divided by height, represents the tangent of the angle of the **guy**. To locate scale 6 with respect to scale 5, an angle of 45 degrees is assumed.

The mast will be guyed at it's top and then extend outward to the ground. The distance from the base of the mast to the **guy** point is 35 feet...how long will this unknown **guy** **wire** be? Using the first formula given above: C squared = A squared + B squared. C squard = 30 squared + 35 squared. C squared = 900 + 1225 C squared = 2125.

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Inclined Cable **Calculator** - with Uniform Horizontal Loads. The **calculator** below can be used for cables with inclined chords and uniformly loads. The **calculator** is based on an iterative algorithm where the parable shaped cable is adapted to span L,. Utility Line Design has over twenty-five planned **calculations** that will be added to the website at no added charge in the coming months. Standards and Design Criteria. SURVEYING. Measuring Angles by Tape Measure Method. Measuring Small Angles from Adjacent **Pole** by Tape Measure Method. Deflection Angle from Two Traverse Bearings. Meca Enterprises is an engineering company developing software for Steel Stack design, Wind Load **Calculations** and Lifting Lug design. We also provide engineering services on a variety of process equipment (Stacks, Skids, Air Cooled Heat Exchangers, etc.). One of the most common problems that occur with steel stacks is wind induced vibration.

Search: **Pole** Load **Calculation**. **Calculation Pole** Load . asg.risarcimento.bologna.it; Views: 4690: Published:-1.08.2022: Author: asg.risarcimento.bologna.it: Search: table of content. Part 1; Part 2; Part 3; ... i 42 and Table 220 Wind load of the Load a **pole** figure file stored in plain ASCII format Load a **pole** figure file stored in plain ASCII.

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ORIENTATION WHEN SETTING NEW **POLES** ON DEADENDS OR ANGLES OF UP TO 59 DEGREES, THE **POLE'S** BIRTHMARK SHOULD BE FACING THE ANCHOR. ON ANGLED **POLES** EXCEEDING 59 DEGREES, THE BIRTHMARK SHOULD FACE THE NON-STANDARD **POLES** WILL NEED TO BE SPECIAL ORDERED. **POLE** SIZING 10/4/10 CECCONI GUINN ELKINS **POLES** - GENERAL.

51. www.fullertonengineering.com Guyed Tower Maintenance – 5+ areas Basic maintenance covers 5+ areas: 1. Plumb & Tension 2. Tower Surface condition (Galvanizing) 3. **Guy** Anchor Shaft & Surface condition 4. **Guy Wire** Surface condition 5. Weed & Growth control 6. FAA marking (Paint and lights) if required 7. As promised, you can download for free my sag-tension spreadsheet **calculator**. Take note that because of the complexity of the creep in a conductor, it is not a factor in these **calculations**. Also, this **calculator** is only for even. I might try ther iced up **wire** at a deflection limit to rough out what size **pole**, sorry, angles would be needed. When I was assigned to the transmission and distribution group, I found that the **wire calculations** always seemed to be backward, or perhaps I had to think backwards, start with a deflection and find the **wire** to match.

Level span sag can be calculated by the approximate parabola method: S = WcL^2 / 8Th. Where: S = Sag @ center of span in meters or feet; Wc = Weight of the conductor in kilograms per meter or pounds per foot; L = Span length in meters or feet and Th = Horizontal tension in Newtons or pounds. Obviously, the units chosen must be consistent. This beam deflection **calculator** will help you determine the maximum beam deflection of simply-supported beams, and cantilever beams carrying simple load configurations. You can choose from a selection of load types that can act on any length of beam you want. The magnitude and location of these loads affect how much the beam bends.

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Search: **Pole** Load **Calculation**. **Calculation Pole** Load . asg.risarcimento.bologna.it; Views: 4690: Published:-1.08.2022: Author: asg.risarcimento.bologna.it: Search: table of content. Part 1; Part 2; Part 3; ... i 42 and Table 220 Wind load of the Load a **pole** figure file stored in plain ASCII format Load a **pole** figure file stored in plain ASCII.

I have a service coming up that may require a **guy wire**. This isn't about whether or not it is required. This is about what the actual requirements are, as far as materials, angles, hardware, etc. The CEC just says when additional support is required. The Alberta Standata basically just says it's up to the AHJ. The POCO doesn't have a spec.

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Guy wire, is an Extra High Strength (EHS) cable that's available in both a 1 x 7 and a 1 x 19 configuration.Meets ASTM A475 or other international standards.It comprises of one or more zinc coated steel wires featuring tensile strength ranging from 35 Kg/mm2 to 180 Kg/mm2, making them suitable for every application. Thecalculatoris designed to accept the total line voltage and current of the combined three cables. The equation for the area of a singlewireis modified to: A = \frac {\sqrt 3 I \varrho L} {V} A = V 3I ϱL. The factor of \sqrt 3 3 is needed to convert between the system's phase current and line current.