Determining equipment design parameters for overhead conveyors
1.
2. The process flow charts will be provided by the manufacturing engineer or the process engineer, depending on the type of installation the conveyor is serving.
4. Draw a plan and elevation of the conveyor as shown in the figure above, on a scaled layout of the plant. Show obstructions the conveyor will encounter, such as columns, walls, machinery, and work aisles. Indicate the loading and unloading zones, probable drive location, and passage through walls.
5. Develop a vertical elevation to determine inclined and declined dimensions.
6. Show the inclines and declines, and their dimensions. A three-dimensional view of the installation can be prepared at this point to help people better visualize the final installation and the various routes of the conveyor.
7. Determine the material movement rate, unit load size, spacing, and carrier design for the conveyor.
8. Information for these variables can be obtained from the flow chart and the personnel in charge of the process being served by the conveyor. It is important that the conveyor be designed for the maximum anticipated load and material size.
10. Prepare drawings showing needed load spacing on turns. Without adequate clearances, the conveyor may not provide the desired transportation capability needed to serve properly the process for which the conveyor is being designated.
12. As inclines and declines get steeper, load spacing has to be increased to provide a constant clearance or separation between loads. The table below gives selected clearances on inclined track for overhead conveyors for a given separation at various inclined angles.
13. Redraw the conveyor path and vertical elevation views using newly determined radii and inclined information.
14. Show the new radii and inclined information as determined by the redesign of the system layout.
16. The chain pull is the total weight of the chain, trolleys, and other components, plus the weight of the carriers and load. Thus, the chain pull is given by:
44. The general procedures presented here is valid for overhead conveyors handling a variety of materials: manufactured goods, parts for assembly, raw materials, etc., in plants in many different industries. Since conveyor layout, sizing and safety design are a specialized skill, the engineer should consult carefully with the conveyor manufacturer. The manufacturer’s wide experience will be most helpful to the engineer in achieving an economical and safe design for the installation being considered.
45. Reference: Handbook of Mechanical Engineering Design and Calculations by Tyler G. Hicks, 10.5 – 10.9
![Determining Equipment Design Parameters for Overhead Conveyors<br />Select suitable equipment for the overhead conveyor shown in the figure. Find the total chain pull and horsepower required if the conveyor is 213 m long, the coefficient of friction is 0.03, the total chain load is 90 kg/m comprised of the components detailed below (for the chain and trolleys = 15.5 kg/m, for the carriers = 18.6 kg/m and for the line load = 55.9 kg/m). Use the design method presented by k.W. Tunnell Company.<br />(a)<br />(b)<br />Solution:<br />,[object Object]](https://image.slidesharecdn.com/determiningequipmentdesignparametersforoverheadconveyors-110418081250-phpapp01/85/Determining-equipment-design-parameters-for-overhead-conveyors-1-320.jpg)
