What is a Hydraulic Ram and How Does It Work?

<p>A hydraulic ram is a cylinder with a movable rod that can move a mass, or an obstruction as so required.</p> <p>In principle, a hydraulic ram works by an external fluid being pumped into either side of a cylinder simultaneously, this creates a high pressure and low-pressure side within the cylinder depending on the load that it is trying to move.</p> <p>Here we explore some of your commonly asked questions surrounding hydraulic rams, what they’re used for, how hydraulic devices work, and how hydraulic rams work.</p> <h3>How does a hydraulic device work?</h3> <p>Hydraulic devices use fluid that is moved by an external pump driven by a power unit. Hydraulic devices are designed around the principle that liquids are always considered to be incompressible. This means that when a force is applied at one point, the liquid will transfer an equal force at another point.</p> <p>Most common hydraulic devices work by using a hydraulic pump, a reservoir for fluid storge to the pump. Mechanical energy is converted to hydraulic energy, moving the liquid through a system. Valves are used to regulate the flow of the liquid and control the pressure of the device. A hydraulic cylinder then converts the hydraulic energy back into mechanical energy.</p> <p>There are a variety of hydraulic devices, including hydraulic rams, but most will use these components in their operation.</p> <h3>How do hydraulic rams work?</h3> <p>Hydraulic rams consist of several components:</p> <p>• Cylinder<br>• Piston<br>• Neck Gland<br>• Rod<br>• Cylinder Ports<br>• End Caps</p> <p>The area between the piston and the gland (rod side) is called the Annular side, & the area between the piston & the end cap is called the Full-Bore side.</p> <p>Pumping fluid into the cylinder port on the Annular side of the cylinder will result in the rod being retracted, giving you a closed centre. Reverse the flow into the opposite port on the Full-Bore side and the piston will then extend the rod out of the cylinder (open centres), at the same time pushing the oil from the Annular side (low pressure) back to tank.</p> <h3>What is a hydraulic ram used for?</h3> <p>Today, hydraulic rams are used all over and have a variety of uses, from heavy plant and mining machinery such as excavators and diggers, agricultural equipment, to food & <a href="https://www.fpeseals.com/case-study/fda-approved-seals-for-food-depositors">beverage</a> and packaging machinery, deep sea, <a href="https://www.fpeseals.com/case-study/seals-to-steer-ram-repair">marine</a> and automotive applications, to hand tools, fairground amusements and even <a href="https://www.fpeseals.com/case-study/the-elephant-in-the-room">zoo doors</a>...the list goes on and on.</p> <p>FPE Seals is a manufacturer and distributor of <a href="https://www.fpeseals.com/cylinder-parts">hydraulic cylinder parts</a> and <a href="https://www.fpeseals.com/seal-kits">seal kits</a> for devices including hydraulic rams. Shop online or contact us and find out how our cylinder parts can help improve your hydraulic systems.</p> <p><a href="https://www.fpeseals.com/contact" class="button medium">Contact Us</a></p>

How Do Hydraulic Seals Work?

<p>Seals are essential to fluid power engineering, as they prevent a fluid or gas from passing between the different components of a hydraulic cylinder.</p> <p>Dynamic (used when parts are in motion) or static (fixed application), different types of seals, each have their own role to play, in ensuring a cylinder runs as smoothly as possible.</p> <p>Our quick guide below shows the main types of seals that you would find in a cylinder and describes how they operate.</p> <h4><strong>Wiper Seals </strong></h4> <p><a href="https://www.fpeseals.com/seals/wiper-seals">Wiper seals</a> or Scraper seals are designed in a way to keep external contaminants out of a hydraulic system, by cleaning the rod in the cylinder on each cycle.</p> <h4><strong>Rod Seals </strong></h4> <p>Also known as <a href="https://www.fpeseals.com/seals/rod-seals">Gland seals</a>, Headbush or Neck Seals, Rod seals act as a pressure barrier to maintain and regulate the operating fluid in a cylinder. They can seal the pressure from one side (single-acting) or from both sides (double-acting). Rod seals are key in preventing corrosion.</p> <h4><strong>Static Seals </strong></h4> <p>These are used to create a seal between fixed components. The full range of <a href="https://www.fpeseals.com/seals/static-seals-o-rings">static seals</a> include o-rings, back-up rings, flange seals, bonded washers and OP seals.</p> <h4><strong>Piston Seals </strong></h4> <p><a href="https://www.fpeseals.com/seals/piston-seals">Piston seals</a> are important for controlling the motion of a cylinder. It creates a barrier for dynamic pressure between the piston and the cylinder, preventing fluid from passing the piston and allowing the cylinder to extend and retract.</p> <h4><strong>Guide Rings</strong></h4> <p><a href="https://www.fpeseals.com/seals/bearing-rings/guide-rings">Guide rings</a> also known as bearing rings, stop metal-to-metal contact between two dynamic cylinder components. This is crucial in the prevention of damage to the two moving surfaces.</p> <h3>The right seal for the job</h3> <p>When selecting the best seals for your hydraulic ram, both at OEM or repair stage, it’s important to consider the parameters of the application and the operating conditions.</p> <p>High pressure, medium used, extreme temperatures, aggressive chemicals, working environment and legislation standards will all have an impact on the chosen material of seal. </p> <p>Over time however, it is expected that hydraulic seals will eventually need replacing, this can be down to general wear and tear, improper installation or exposure to extreme elements. </p> <p>Most replacement seals, for most applications can be found off the shelf and seal kits for well known applications can be picked up easily. </p> <p>If you require any further advice regarding seals and their applications, the team of experts at FPE Seals can help you source what you need.</p> <p>Can’t find what you’re looking for? We can also custom-manufacture a full range of seals, in a full range of materials to meet your exact requirements. </p> <p><a href="https://www.fpeseals.com/contact" class="button medium">Contact Us</a></p>

Wave Spring Seals

Stationary Seals

Water Pump Seals

Multiple Spring Seals

Parallel O Ring Mounted Seals

Diaphragm Seals

Elastomeric Bellows Seals

Conical O Ring Mounted Seals

Cartridge Seals

V-Seals

Rotary Seals

Oil Seals

Cushioning Rings

Retaining Rings

Guide Strip

Guide Rings

Guide Ring Wipers

Metal Cased Wipers

Flexible Wipers

Double Lipped Wipers

Wiper Composite Seals

U-Ring Seals

Piston T-Seals

Split Piston Seals

Solid Piston Seals

Rubber & Fabric Piston Seals

Grooved Piston Seals

Cup Seals

Piston Composite Seals

Piston Rings

Hydraulic Complete Piston Seals

Piston Vee-Packing Seals

Pneumatic Wiper Seals

Pneumatic Guiding Wiper Seal

Pneumatic Piston Seals

Pneumatic Cushion Seals

Pneumatic Complete Piston Seals

D Rings

Washers

OP Seals

O Rings with Back Up Rings

Static Seals

Quad Rings

O Rings

Back Up Rings

Rod Vee-Packing Seals

Rod T-Seals

Rod Composite Seals

U-Ring Rod Working Seals

Rubber & Fabric Rod Seals

Cylinders in Kit Form

Piston Seal Kits

Gland Seal Kits

Hose Protection

Protection Plugs

Protection Caps

Overcentre Valves

Flow Control Valves

Check Valves

Burst Valves

Lubrication

Locking

Pins

Spanners

Hand Pumps

Snap Rings

Circlips

Couplings

Trailer Brake Rams

Radial Ball Joints

Fixed Eyes

Weldable Bosses

Bushes

Fork Ends

Ball Joint Ends

Cushioning Components

Cylinder Accessories

End Caps

Glands

Locking Nuts

Flanges

Tubes

Rods

Plugs

Pistons

Ports

Connection Tubes

Weldable Trunnions

Seal Kits by Manufacturer

Swivel Joint Seal Kits

Seal Kits for Mini Excavators

Caterpillar Locknuts

MAXI Kits

Service Kits

O Ring Kits

Vibra-Tite

O-Ring Measuring Tools

Verniers

Pick Sets

Tools

What are the most common causes of hydraulic system failure?

There are many reasons that could cause a hydraulic system to break down, many of which are preventable if carefully monitored. Here we take a look at some of the signs and symptoms of hydraulic failure.

Fluid contamination

One of the main reasons hydraulic systems fail is due to fluid contamination. Whatever the type of fluid being used, if it becomes contaminated with any dust, dirt, or moisture, this can reduce the pumps ability to control system pressures. This in turn, can lead to overheating or a build-up in the system that causes the parts to seize and fail.

Always ensure that the different components and fluids are clean and fit for purpose before use, to prevent failure from occurring.

Poor or irregular maintenance

Servicing is vital to keep a system running smoothly. It is important to ensure that the system’s oil and filters are changed appropriately. Poor or irregular maintenance could cause the system to become contaminated, increasing wear on the pump and associated equipment.

The suction hose between the tank and pump also needs to be in good condition and replaced if any sign of wear.

It is good practice to inspect a hydraulic unit regularly, checking the oil levels, cleaning up any spillages and reporting any defects immediately.

Misuse and human error

It is imperative that proper instruction and training is given to anyone that is using an application operated by a hydraulic system. Faulty installation, using incompatible parts or improper usage are all major factors that can cause failure.

Environmental & operating factors

Temperature and working conditions all have an impact on the system.

The power unit needs be housed or operated in a well-ventilated area, so that the oil coolers are kept free from dust and contamination.

Is the application operating in high temperatures? If so, close attention will need to be given to the type of fluid used and specialist seals will need to be installed, in all applications. Always avoid using mineral based oils in high temperature applications, these are refined from crude oil and have a flash point, which means that they will ignite at a certain temperature.

If the application is operating in cold environments, a tank heater may need to be installed, in order to maintain the fluid viscosity. Hydraulic fluid that is too thick or too thin can cause damage to the system.

Aggressive working conditions can also put strain on a system, leaving it vulnerable to failure. External shocks and vibration can cause surging and cavitation between the tank and the inlet of the pump. This can be avoided by properly mounting the power unit on special anti-vibration units.

The hydraulic tank also needs to be mounted higher than the pump and kept as close together as possible.

No matter what the application, hydraulic system failure is inevitable at some point. However, issues can be avoided if you ensure that you regularly follow all maintenance procedures and make certain that the appropriate components are installed or replaced correctly. If you are unsure of anything, don’t be afraid to call on your industry peers or hydraulic professionals for their help and advice.