John Deere 310D, 1995 Technical Specifications
| SideShift or CenterMount | CM |
| SAE dig depth (mm) | 4370 |
| Reach @ ground level (mm) | 5360 |
| Loading height (mm) | 3450 |
| Bucket width, min-max (mm) | 305-914 |
| Bucket breakout (kgf) | 5150 |
| Dipper breakout (kgf) | 2960 |
| Slew System | Cylinder |
| Loader Bucket Capacity (m3) | 1 |
| Dump height (mm) | 2650 |
| Bucket width (mm) | 2340 |
| Bucket breakout (kgf) | 3670 |
| Engine Make & Model | JD 4-039T |
| Engine power (kW@rpm) | 56@2200 |
| Engine displacement (lit) | 3.91 |
| Number of cylinders | 4 |
| 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) | 6880 |
| Travel height (mm) | 3670 |
| Width (mm) | 2340 |
| Turn circle radius without brakes (mm) | 10550 |
| Operating weight (kg) | 7100 |
| Model | 310D |
The John Deere 310D: A Comprehensive Analysis of its Technical Specifications
The John Deere 310D is one of the most popular backhoe loaders in the market, renowned for its versatility and durability. It has a number of features and technical specifications that have made it a popular choice in the construction and agricultural industries. In this article, we will take a closer look at the advantages and disadvantages of some of the key features of the John Deere 310D.
SideShift or CenterMount
The John Deere 310D comes in two configurations: SideShift and CenterMount. SideShift is the most common configuration, where the backhoe is mounted on the side of the tractor. CenterMount, on the other hand, places the backhoe in the middle of the tractor.
The main advantage of the SideShift configuration is that it allows for greater visibility, as the operator can see the entire width of the machine. This makes it easier to maneuver in tight spaces or in uneven terrain. Additionally, SideShift allows the operator to use attachments such as buckets or forks more efficiently.
However, CenterMount has its own advantages. It provides better weight distribution, which can increase stability and control especially when carrying heavy loads. CenterMount also allows for greater flexibility when digging trenches or digging in tight spaces, as the backhoe can make sharper turns without having to reposition the entire machine.
SAE dig depth
The SAE (Society of Automotive Engineers) dig depth of the John Deere 310D is 4370 mm. This refers to the maximum depth that the backhoe can dig when the boom is extended and the bucket is fully articulated.
The advantage of having a deep dig depth is that it allows for more versatile digging in different kinds of soil conditions. For example, when digging for foundations, a deep dig depth can ensure that the digging can be completed without having to reposition the machine. However, it is important to note that a deep dig depth requires a more powerful engine and hydraulic system, as it puts more strain on the machine.
Reach @ ground level
The reach at ground level of the John Deere 310D is 5360 mm. This refers to the horizontal distance from the front of the machine to the point where the backhoe can start digging.
Having a long reach can be advantageous in situations where the machine needs to dig a trench or hole that is far away from its starting position. For example, a long reach can be useful when excavating a foundation that is located deep in a space that the machine cannot directly access. However, a long reach can also be a disadvantage in a small or confined space, as the machine may not have enough room to turn around or maneuver.
Loading height
The loading height of the John Deere 310D is 3450 mm. This refers to the maximum height that the machine can lift and load a heavy object.
Having a high loading height can be advantageous in situations where heavy objects need to be lifted and loaded into high places, such as on a truck bed or onto a building’s roof. However, a high loading height can also be a disadvantage if the machine is being used in an area with low overhead clearance, as it may not be able to safely lift and transport the object.
Bucket width
The bucket width of the John Deere 310D ranges from 305-914 mm, depending on the type of bucket being used.
Having a wide bucket can be advantageous in situations where large quantities of earth or debris need to be moved quickly. However, a wide bucket can also be a disadvantage when trying to maneuver in tight spaces or when precision digging is required.
Bucket breakout
The bucket breakout of the John Deere 310D is 5150 kgf. This refers to the amount of force that the bucket can exert when digging into hard or compact soil.
Having a high bucket breakout can be advantageous in situations where the machine needs to dig through tough soil or debris. However, a high bucket breakout can also be a disadvantage if the machine is being used in an area with delicate surfaces or structures, as it can cause damage.
Slew System
The John Deere 310D uses a cylinder-based Slew System, which means that the backhoe arm is moved by hydraulic cylinders.
The advantage of using a cylinder-based Slew System is that it allows for precise control of the backhoe arm, which can be useful when performing delicate tasks or when working in tight spaces. Additionally, cylinder-based systems are generally more reliable and require less maintenance than other types of systems.
Loader Bucket Capacity
The loader bucket capacity of the John Deere 310D is 1 cubic meter.
Having a high loader bucket capacity can be advantageous when moving large amounts of material quickly and efficiently. However, a high loader bucket capacity can also be a disadvantage if the machine is being used in an area with limited space, as it can be difficult to maneuver the machine and its loaded bucket.
Dump height
The dump height of the John Deere 310D is 2650 mm. This refers to the maximum height that the loader bucket can be lifted before it can be used to dump its contents.
Having a high dump height can be advantageous when dumping material into a truck or onto a high surface. However, a high dump height can also be a disadvantage if the machine is being used in an area with low overhead clearance, as it may not be able to safely lift the bucket to its full height.
Engine
The John Deere 310D is powered by a JD 4-039T engine, which has a power output of 56 kW at 2200 rpm. It has a displacement of 3.91 liters and is a four-cylinder engine.
The advantage of using a four-cylinder engine is that it is generally more fuel-efficient than other types of engines. Additionally, four-cylinder engines are generally more reliable and require less maintenance than other types of engines.
Pump Type and Flow
The John Deere 310D uses a gear pump type and has a flow rate of 133 liters per minute.
The advantage of using a gear pump is that it is generally more efficient than other types of pumps, as it can handle high pressure and high flow rates. Additionally, gear pumps are generally more reliable and require less maintenance than other types of pumps.
Transmission and Drive
The John Deere 310D uses a PS TC transmission and has a 2WD/4WD drive.
The advantage of using a PS TC transmission is that it provides better control of the machine’s speed and power, which can be useful when working in tight spaces or on delicate surfaces. Additionally, 2WD/4WD drive allows the machine to adapt to different terrain conditions, which can increase productivity and efficiency.
Operating Weight and Dimensions
The operating weight of the John Deere 310D is 7100 kg. Its dimensions are 6880 mm in length, 3670 mm in height, and 2340 mm in width.
Having a moderate operating weight and compact dimensions can be advantageous in situations where the machine needs to work in confined or difficult-to-reach spaces. However, a lighter weight machine may be more susceptible to tipping or instability, especially when working on uneven terrain.
Ride Control
The John Deere 310D does not have a ride control feature.
Ride control can be
