John Deere 315C, 1991 Technical Specifications
| SideShift or CenterMount | SS |
| SAE dig depth (mm) | 4290 |
| Reach @ ground level (mm) | 5320 |
| Loading height (mm) | 3510 |
| Bucket width, min-max (mm) | 305-914 |
| Bucket breakout (kgf) | 5260 |
| Dipper breakout (kgf) | 3020 |
| Slew System | Cylinder |
| Loader Bucket Capacity (m3) | 0.9 |
| Dump height (mm) | 2690 |
| Bucket width (mm) | 2340 |
| Bucket breakout (kgf) | 4241 |
| Engine Make & Model | JD 4-239D |
| Engine power (kW@rpm) | 50@2200 |
| Engine displacement (lit) | — |
| Number of cylinders | — |
| Pump type | Gear |
| Pump flow (lit/min) | 133 |
| Relief valve pressure (bar) | 186.2 |
| Transmission type | PS TC |
| Drive | 2WD/4WD |
| Speeds, FR | 44 |
| Maximum speed (km/h) | 41 |
| Ride control (Std/Opt/NA) | — |
| Travel length (mm) | 5510 |
| Travel height (mm) | 3700 |
| Width (mm) | 2340 |
| Turn circle radius without brakes (mm) | 10900 |
| Operating weight (kg) | 6281 |
| Model | 315C |
Introduction
The John Deere 315C, 1991 is a construction equipment that is designed to perform heavy-duty tasks such as digging, lifting, and moving large objects. The machine is equipped with various features and specifications that enable it to perform these tasks efficiently and effectively. In this article, we will analyze the advantages and disadvantages of these features and specifications and provide real-world examples that illustrate the practical applications of these advantages and disadvantages.
SideShift or CenterMount (SS)
The SS is the attachment system used to attach the bucket to the machine. The SS allows for the bucket to be attached to either the center of the machine or offset to the right or left. This system provides flexibility when digging in tight spaces or working in limited areas. The offset bucket allows the operator to dig next to walls or other obstacles without damaging the machine or the obstacle.
However, the SS can also reduce the stability of the machine when digging or lifting heavy loads. The offset weight can cause the machine to tip over, which poses a safety risk for the operator and other workers on the worksite.
SAE Dig Depth
The SAE Dig Depth is the maximum depth of the bucket when digging into the ground. The John Deere 315C, 1991 has a dig depth of 4290mm. This specification is important when digging foundations, trenches, or when excavating material from the ground.
With a high dig depth, the machine can perform deep excavation tasks, which is advantageous in construction worksites where deep excavation is required. However, a high dig depth can also be a disadvantage when working in narrow spaces or when the soil is unstable. The weight of the machine can cause the ground to collapse or become unstable when digging too deep.
Reach @ Ground Level
The Reach @ Ground Level specification is the maximum distance that the bucket can reach when digging or lifting objects from the ground. The John Deere 315C, 1991 has a reach of 5320mm. This specification is essential when working in large excavation worksites and when lifting objects from a distance.
However, a significant reach can also be a disadvantage when working in confined spaces where the machine needs to maneuver between obstacles. The long reach can also reduce the stability of the machine and increase the risk of tipping over when lifting or digging heavy loads.
Loading Height
The Loading Height is the maximum height that the bucket can lift an object. The John Deere 315C, 1991 has a loading height of 3510mm. This specification is important when loading material onto a truck or other elevated surfaces.
The loading height can be an advantage when working with elevated surfaces. However, it can also be a disadvantage when working in confined spaces or when the material to be lifted is too heavy. The loading height can also reduce the stability of the machine and increase the risk of tipping over.
Bucket Width, Min-Max
The Bucket Width is the width of the bucket. The John Deere 315C, 1991 has a bucket width of 305-914mm. This specification is essential when digging trenches, foundations, or other narrow spaces.
The bucket width can be an advantage when working in narrow spaces. However, it can also be a disadvantage when working with large objects or when excavating large areas. A narrow bucket width can reduce the efficiency of the machine and increase the time required to complete the task.
Bucket Breakout
The Bucket Breakout is the force required to break through a solid surface using the bucket. The John Deere 315C, 1991 has a bucket breakout force of 5260kgf.
The bucket breakout force is an advantage when working with hard or rocky soil. However, it can also be a disadvantage when working with soft soil or when digging near objects that could get damaged. The force required to break through the soil can also reduce the stability of the machine and increase the risk of tipping over.
Dipper Breakout
The Dipper Breakout is the force required to break through a solid surface using the dipper. The John Deere 315C, 1991 has a dipper breakout force of 3020kgf.
The dipper breakout force is an advantage when working with hard or rocky soil. However, it can also be a disadvantage when working with soft soil or when digging near objects that could get damaged. The force required to break through the soil can also reduce the stability of the machine and increase the risk of tipping over.
Slew System
The Slew System is the mechanism that allows the machine to rotate. The John Deere 315C, 1991 uses a cylinder system for its slew system.
The cylinder system is advantageous over other systems because it is more efficient and requires less maintenance. However, it can also be a disadvantage when working with heavy loads or when the machine needs to turn quickly. The cylinder system can reduce the stability of the machine and increase the risk of tipping over.
Loader Bucket Capacity
The Loader Bucket Capacity is the volume of material that the bucket can hold. The John Deere 315C, 1991 has a loader bucket capacity of 0.9 cubic meters.
The loader bucket capacity is an advantage when working with large amounts of material. However, it can also be a disadvantage when working in confined spaces or when the material to be loaded is heavy. The weight of the material can reduce the stability of the machine and increase the risk of tipping over.
Dump Height
The Dump Height is the maximum height that the machine can dump the material in the bucket. The John Deere 315C, 1991 has a dump height of 2690mm.
The dump height is an advantage when working with elevated surfaces. However, it can also be a disadvantage when working in confined spaces or when the material to be dumped is heavy. The weight of the material can reduce the stability of the machine and increase the risk of tipping over.
Engine Make & Model
The Engine Make and Model are the specifications for the engine used in the machine. The John Deere 315C, 1991 uses a JD 4-239D engine with a power of 50kW@2200rpm.
The engine specifications are advantageous because they provide the machine with the required power to perform heavy-duty tasks. However, the engine power can also be a disadvantage when working in confined spaces or when the machine needs to operate at lower speeds. The engine power can also increase the fuel consumption of the machine, which can increase the operating costs.
Pump Type
The Pump Type is the type of pump used in the hydraulic system of the machine. The John Deere 315C, 1991 uses a gear pump.
The gear pump is advantageous because it is simple, reliable, and requires less maintenance. However, it can also be a disadvantage when working with heavy loads or when the machine needs to operate at higher speeds. The gear pump can reduce the efficiency of the machine and increase the time required to complete the task.
