Rope safety factor (Sf) in an elevator; It is a value that is directly dependent on the number of drive pulleys, deflector pulleys used, the shape of the rope bending, and the pulley channel angle. Determine the safety factor for the pulley-drum connection given below, using V-type pulleys with a channel angle of 35°. The rope diameter is 16 mm. (Include the selected table and the selection directions in the selected graphs).

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Rope safety factor (Sf) in an elevator; It is a value that is directly dependent on the number of drive pulleys, deflector pulleys used, the shape of the rope bending, and the pulley channel angle. Determine the safety factor for the pulley-drum connection given below, using V-type pulleys with a channel angle of 35°. The rope diameter is 16 mm. (Include the selected table and the selection directions in the selected graphs).
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### Mechanical System Diagram

#### Description
This diagram represents a mechanical system consisting of pulleys and a drum. The system appears to include different types of mechanical components, which are labeled with their respective specifications.

#### Components in the Diagram:
1. **V Kanalı Kasnak (V-Groove Pulley)**
   - **Diameter: 400 mm**
   - This is represented as a circle with the label "V Kanalı Kasnak Ø400mm."
   - The pulley is interconnected with other components using a belt (shown as a line connecting various circles).

2. **TAMBUR (Drum)**
   - **Diameter: 750 mm**
   - This is shown as a larger circle labeled "TAMBUR Ø750mm."
   - The drum is likely part of the system used for winding or tensioning the belt.

#### Visual Explanation:

- **Circles**: The circles represent pulleys and a drum, with the larger circle on the far right identified as a drum.
- **Arrows**: The green arrows indicate the direction of force or motion within the system.
- **Lines**: The gray line connecting the circles represents the belt or linkage connecting the pulleys.

#### Key Points:
- The system utilizes a V-groove pulley with a diameter of 400 mm and a drum with a diameter of 750 mm.
- The interconnected system is likely dedicated to transferring motion or force between components, with energy presumably being transferred from one part to another efficiently via belts and pulleys.

#### Usage:
Mechanical systems like this are common in various applications, such as in conveyor belts, machinery, and automotive engines where precise motion transfer is crucial.

---
Transcribed Image Text:--- ### Mechanical System Diagram #### Description This diagram represents a mechanical system consisting of pulleys and a drum. The system appears to include different types of mechanical components, which are labeled with their respective specifications. #### Components in the Diagram: 1. **V Kanalı Kasnak (V-Groove Pulley)** - **Diameter: 400 mm** - This is represented as a circle with the label "V Kanalı Kasnak Ø400mm." - The pulley is interconnected with other components using a belt (shown as a line connecting various circles). 2. **TAMBUR (Drum)** - **Diameter: 750 mm** - This is shown as a larger circle labeled "TAMBUR Ø750mm." - The drum is likely part of the system used for winding or tensioning the belt. #### Visual Explanation: - **Circles**: The circles represent pulleys and a drum, with the larger circle on the far right identified as a drum. - **Arrows**: The green arrows indicate the direction of force or motion within the system. - **Lines**: The gray line connecting the circles represents the belt or linkage connecting the pulleys. #### Key Points: - The system utilizes a V-groove pulley with a diameter of 400 mm and a drum with a diameter of 750 mm. - The interconnected system is likely dedicated to transferring motion or force between components, with energy presumably being transferred from one part to another efficiently via belts and pulleys. #### Usage: Mechanical systems like this are common in various applications, such as in conveyor belts, machinery, and automotive engines where precise motion transfer is crucial. ---
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