what size hydraulic pump for log splitter factory

Log splitters are designed with a simple process in mind: to split logs efficiently. To do so, almost all use a hydraulic system to pressurize the driving force of the splitting wedge. When you purchase a log splitter, you don’t have to worry much about the individual parts other than for basic maintenance needs and cleaning purposes.

But if you are interested in building your own log splitter, which is a very realistic option due to the simplicity of the machinery, then you do need to know what parts are best for effective splitting power. Gas and electric splitters utilize a hydraulic pump which is the integral component of hydraulic power. If you were wondering what size hydraulic pump for a log splitter you need, this article explains below its use and what to look for.

Log splitters are powerful machines that provide a splitting pressure to logs of various sizes. Almost all splitters use hydraulics whether it is pressurized via an electric, gas, or manual power source. These hydraulics feed a splitting wedge of your model of choice to make short work of just about any size log you you need to cut down to size.

One of the simplest hydraulic systems you can find in use is a log splitter. The basics of hydraulic pressure utilize an engine, oil pump to create oil pressure, a hydraulic cylinder that works with a valve for splitting power, and tank to hold and feed oil through the system.

If you are serious about making your own backyard log splitter, then you want to have, at a minimum, the following components to provide the right amount of force and power for basic splitting of averaged sized, seasoned logs:

But you may want a bit more force for heavier workloads, which is why I’ve explained below how a pump can help determine your splitter’s speed, and influence the cutting force. Read more about how a log splitter works, how to care for it, and what you need to build your own.

Mentioned multiple times above is the use of a two-stage pump that is most common for a hydraulic log splitter system. This is because it uses two different sets of gears doing the pumping to keep you machine running smoothly and providing the power you need at the speed you desire.

Although a two-stage pump is the best option for your log splitter, you can manipulate the amount of force it exerts through which size cylinder you choose. To calculate your own splitter’s force and speed based on the choices you make, you can use this handy calculator tool.

The entire splitting system is dependent upon the pump that consists of two pumping sections and an internal pressure sensing valve. One of these sections generates the maximum flow rate rated at at lower pressure that is used to draw the piston back for the system to reset after splitting. The other section provides the highest possible pressure to generate maximum splitting force.

Knowing the maximum pressure generated by a pump determines the splitting powerof the pump, and one thing you will notice is that most companies are fairly generous in their tonnage claims and round up more often than not. To figure the tonnage provided by the splitter, simply multiple the maximum pressure of the pump (a two-stage pump applies about 3,000 PSI), by the total surface area of the piston in square inches. The resulting number is the total available pressure.

You also can determine the cycle time of a piston to figure how quickly you can work through a pile of logs. To move a 4 inch piston 24 inches (the common piston length) you need 301 cubic inches of oil. Since a gallon of hydraulic fluid takes up 231 cubic inches, you need to pump, at a minimum, 1.5 gallons of fluid to push the piston in one direction.

The flow rate of the pump is dependent on the size of the engine powering the system. If your engine is capable of providing an 11 gallon per minute rate, then it will take approximately 20 to 30 seconds to cut, and around 10 seconds to reset. Common horsepower minimum requirements for a two-stage pump are:

For a dependable machine, you want to incorporate a two-stage pump to work with whatever size engine and cylinder you decide upon for cutting wood. These keep your splitter working smoothing and efficiently, and allow you to dictate speed and force to handle whatever size job you have in mind. If you have any further questions, or want to add to this information, please do so below. And, as always, please share.

If you plan to replace the hydraulic pump in your log splitter or build your log splitter, you should know the size of the hydraulic pump that fits your log splitter. Log splitters are designed to split logs efficiently.

The machine uses a hydraulic system to power the splitting wedge to split logs efficiently. The hydraulic pump is an integral component of gas and electric splitters to provide the necessary power to do the job properly.

A log splitter is a powerful machine that splits logs of various sizes using hydraulic pressure. All log splitters – whether electric, gas, or manual – use hydraulics to feed the splitting wedge to cut the logs to just about any size you prefer.

The hydraulics system found in a log splitter consists of an engine, a hydraulic cylinder, a valve, an oil pump to create oil pressure, and a tank to hold and feed oil through the system.

Since the log splitter pump is one of the most important components of the machine, choosing the right kind of hydraulic pump for your log splitting machine becomes crucial when you need to replace the pump or plan to build your own log splitter.

Hydraulic pumps work according to the theory of hydraulics. The Principle of hydraulics or Pascal’s law governs how hydraulics work. Pascal’s law states that when you apply pressure to a specific point of a closed or confined fluid, the pressure will transmit to all other fluid points without any losses.

The hydraulic pump converts mechanical energy into hydraulic energy by using flowing water. The hydraulic pump uses flowing water to create a hydraulic system.

Even though the system is quite complicated, the operation is simple. Hydraulics provide force in a specific area. This force is what we call pressure which helps the log splitter perform its job effectively.

Log splitter pumps are two-stage hydraulic pumps. The entire splitting system is dependent on the pump. The pump consists of two pumping sections as well as an internal pressure sensing valve. One section of the pump helps generate the maximum flow rate at a lower pressure, and it is used to draw the piston back for the system to reset after splitting the log.

It takes very little force to draw the piston back into the cylinder after splitting the log. But, it should happen quickly. That is why you need the highest possible flow rate at low pressure.

When pushing the piston into the log, you need the highest possible pressure to generate maximum splitting force to split the logs efficiently. The flow rate is not a big issue here. Hence, the pump will switch to a high-pressure and low-volume stage to split the log.

When the size of the pump increases, it requires more fluid. But when there is more fluid in the cylinder of the pump, the speed & force of the pump decrease. That is why you need to choose the right size pump for your log splitter.

You can split logs more efficiently when opting for the correct size hydraulic pump for your log splitter. There are different sizes of hydraulic pumps in the market today. You should do your homework properly and opt for the right size pump for your log splitter.

The latest hydraulic pumps available in the market are based on GPM (Gallons per minute). The higher the GPM, the smaller the cylinder. The splitting force of the pump depends on the cylinder.

The pump that your log splitter needs will be dependent on the engine size of the machine. For example, a 5.5-6 hp engine can handle an 11 GPM 2-stage hydraulic pump, while an 8 hp or bigger engine can handle a 16 GPM 2-stage pump.

The engine of a log splitter works on hydraulics. While the pump will create the driving force, the hydraulic cylinder will work in unison with the valves, influencing splitting power and speed. If your log splitter has a 6-7 Horsepower engine, you should opt for a two-stage hydraulic pump (about 3000 PSI) with 11 GPM.

To get more speed, the pump either needs more flow (GPM) or a smaller cylinder. Smaller cylinders don’t require more power but will produce less force. More flow comes from a larger hydraulic pump. You will get the same force with a larger pump but supply more horsepower to the new hydraulic pump.

Are you planning to replace the hydraulic pump in your log splitter or build your own log splitter? If so, you should understand the basics of how a hydraulic pump works and what size pump to choose for your log splitter. To achieve automation, efficiency, and effectiveness, all log splitters rely on hydraulics.

Therefore, you should not worry too much as the size of the pump is only one aspect to look at. But the right decision about the size of the hydraulic pump is always useful in usage.

For the people who have absolutely no idea about what these log splitters are, in simple terms, they can be called machines that chop wood using automation (or manual) power.

The primary purpose is to break these logs into pieces to aid their transport. The purpose of designing the log splitter is to simplify log splitting via automation (or manual) power.

Log splitters are phenomenal in their work, and the design aspect of log splitters is their main highlight. To achieve this automation, efficiency, and effectiveness, all these log splitters use hydraulics.

This two-stage hydraulic log splitter pump is the base of the hydraulic system. The hydraulic system is used to pressurize and create the force for splitting the wood.

This makes the log splitter pump the essential part of the log splitter. Whether you are well-versed with log splitters or have hardly heard about them, go through this article, and you will surely understand what size of log splitter pump you should use.

Log splitter pumps, as previously discussed, are a very crucial element. Thus, choosing the right kind of hydraulic log splitter pump becomes very important. The best way to go with this is by choosing the right size and quality materials for the log splitter pump. This will ensure high efficiency and effectiveness.

Before you make the decision, do analyze accordingly concerning your needs and log splitter. The size of log splitter pumps influences not only the performance but also the cost. Thus, the decision of choosing the size of hydraulic log splitter pumps depends upon three major factors:

Before deciding the size of log splitter pumps, it is essential to understand the hydraulics to determine the correct size based on the principle of log splitter pumps.

Hydraulic log splitter pumps work according to the phenomenon of hydraulics. Pascal’s law (Principle of hydraulics) governs hydraulics. It states that if you apply pressure to a particular point of a fluid (closed/confined), the pressure transmits to every other fluid point (with no losses).

Pumps convert one form of energy to another. As the name suggests, hydraulic pumps convert mechanical energy to hydraulic energy. For this conversion, hydraulic pumps use flowing water.

Using flowing water, these hydraulic pumps create a hydraulic system. This system is complicated, but in simpler terms, it provides force in a specific area, basically what we call pressure.

Two-stage hydraulic pumps are usually used as log splitter pumps. This complex system can be explained using an analogy. Consider the working of a vehicle, and it displaces itself irrespective of the heavyweight. It uses power for displacement.

This is precisely what happens in a log splitter, except that it happens at a smaller scale. Thus, the pump utilizes the conversion of the energy for running the log splitter.

Now that you know the log splitter and hydraulic pump details, we can discuss the size of the log splitter pump. Why should we be bothered about the size of the log splitter pump? The reason is that the size affects the speed and force (splitting).

Bigger the size of the log splitter pump (basically the pump cylinder’s size), the bigger the splitting force. This helps in the useful splitting of more extensive woods. But with the increase in the size of the hydraulic pump, it also requires more fluid. The requirement of more fluid decreases the speed.

This is the reason why the size of log splitter pumps becomes so essential. You can either choose the speed of splitting force. If you choose to increase one of the two-parameter, then the other one decreases.

To choose the best and correct size of your log splitter, you need to decide to improve either pump speed or splitting force. There are different size pumps available in the market according to your requirement.

Pumps available in the market are based on GPM (Gallons per minute). The higher the GPM, the smaller is the cylinder. The splitting force depends upon the cylinder. The higher the GPM, the smaller is the splitting force. To make it more transparent,

If you are interested in making a log splitter, which is possible as the calculations required for designing, parts required, and technique to make a log splitter is available. It can be employed if one shows interest in it. Only go for the DIY option if you are well-versed with machinery.

The engine of the log splitter works on the basics of hydraulics. The pump creates the driving force, and the hydraulic cylinder works in unison with the valves influencing splitting power and speed.

The engine used must be of 6-7 Horsepower. A two-stage hydraulic pump (about 3000 PSI) must be employed of 11 GPM. The standard hydraulic cylinder of 4-inch diameter and 24-inch length/height. Around 10-12-gallon capacity of the oil tank.

Note: If you want to play around with the values and choose the best according to your requirement, then use this calculator tool by international hydraulics.

Finally, it is your choice! As you know that you can either have a good speed or high splitting force, you must make your own decision with the size of log splitter pumps. You do not need to worry a lot as the size is only one aspect to look at, but the right decision about the size is always useful in usage.

The choice of DIY or buying one from the market is also your choice. If you are well-versed with calculations and machinery, then go for it as log splitters are expensive in the market.

If you know why you are employing a log splitter, it will help you make a better decision. For example, if you are one of those campers who requires a log splitter in his camps for firewood, go for the speedy ones (small cylinder size). The reason is that you would want to split wood faster instead of splitting larger pieces.

Irrespective of whether you buy a branded log splitter or DIY, they require regular maintenance and cleaning. For better results, go for the two-stage hydraulic pumps (even if they are a bit expensive).

If you follow the above tips, then the log splitter works effectively and efficiently. Taking the right decisions can help you enforce the right speed and optimum splitting force required for your log splitting.

This product is a Hi-Lo cast iron hydraulic gear pump with max pressures of 900 PSI for the low pressure and 3000 PSI for the high pressure pump. Typical applications for this 13 GPM hydraulic pump are log splitters and presses, where alternating low and high pressures are required to move a cylinder.

Looking for log splitter hydraulic pump purchase guide? A lot of people ask Google this question every day, and it’s no wonder if you have found yourself asking that same exact question. I mean this is an important decision that could affect your home for years to come. There are so many log splitters for hydraulic pump on the market today that choosing the right one can be a bit overwhelming.

Hydraulic pump wood splitter is a machine that splits logs by compressing them between two wedges. The log is inserted into the wedge between the two cylinders and then compressed until it splits into two pieces.

Hydraulic pump log splittingmachines are ideal for splitting large pieces of wood, such as logs from trees and branches from fallen trees. They are also used to split firewood that cannot be split by hand. The hydraulic pump log splitter is powered by an electric motor or gasoline engine, which turns a gear box that drives the hydraulic pump. The hydraulic fluid is pumped through hoses to two cylinders that compress the wood between them until it splits.

A hydraulic pump log splitter can be used outdoors or in an enclosed building such as a garage or workshop. They come in different sizes and power options depending on how much wood you need to process at once.

Log splitters are machines that are used to split logs into firewood. They work by using hydraulic pressure to drive a wedge through the wood. The machine consists of a hydraulic piston pump that is connected to a ram, which is connected by a jackshaft to the splitting wedge (or “blade”). The pump uses hydraulic fluid under pressure from an electric or gas-powered engine, which pushes the ram forward and forces it against the wedge. This causes the log to be pushed down onto a splitter bed and split in two.

There are different types of log splitters, including manual and electric versions. Each type has its own pros and cons: Manual models offer better control over how long you want each log to be split, while electric models are easier to use but require more maintenance.

Pressure is basically how much force can be exerted on an object. In this case, we’re talking about how much force is required to move the ram forward. This is where things get tricky. There are a lot of variables that go into determining how much pressure will be needed for a given application. The first thing to consider is what kind of wood you’ll be splitting with your log splitter. Generally speaking, more dense woods require more pressure to split them (which means more power). But there are other factors at play as well. For example, if you’re splitting wet logs or if you have a poor quality hydraulic pump, then it may not be able to produce enough pressure for your needs even if it has enough power capacity available.

Flow refers to how fast the oil can flow through the pump at any given time. A bigger pump has more flow capacity than a smaller one does by default (because it has more pistons inside). However, if a larger pump has too much flow capacity for its application then it may not operate as efficiently as it could because oil won’t be getting pushed through its cylinders fast enough to make them work properly.

The 11 GPM Log Splitter Pump is great for any gas log splitter. The pump has a 1/2″ diameter discharge hose with an adjustable flow control valve to allow you to adjust the flow rate to your desired setting. The 11 gpm log splitter pump is also equipped with a pressure regulator that will ensure that you don’t over-pressurize your log splitter, which can cause damage to the engine or damage to any nearby structures. The 11 gpm log splitter pump comes complete with all necessary mounting hardware, two filter screens and brass fittings.

The 11 GPM Log Splitter Pump can be used on both electric and gas powered log splitters with up to 200 PSI of pressure output. This is an excellent upgrade from stock pumps and will allow you to operate at higher pressures without damaging your equipment or injuring yourself.

The 13 gpm log splitter pump is a small and portable log splitter that can be used for small or large firewood splitting projects. The pump comes with a 3,000 PSI pressure regulator which allows you to adjust the pressure of your log splitter. This means that you can use this pump on any size wood without worrying about damaging your pump or the wood.

The 13 gpm log splitter pump comes with all of the necessary fittings and hardware, so you can easily connect it to most air tanks and compressors. It also includes an air hose that is 6 feet long, so you have plenty of room to work with while using this product. This unit comes standard with a 1 year limited warranty, but customer service representatives are available 24 hours per day if you have any questions or concerns regarding this item.

The 16 gpm log splitter pump is the perfect addition to your log splitter. This high pressure pump is capable of delivering 16 gallons per minute of water, which is enough to keep your log splitter running smoothly.

This pump is made from aluminum and features a cast iron impeller. The entire unit weighs only 30 pounds, so it can be easily stored or transported without any special equipment.

The 16 gpm log splitter pump has a 1/2″ NPT male inlet and a 3/8″ barb outlet, making it compatible with most common hose connections. The pump has an adjustable flow rate that ranges from 6 gpm to 16 gpm, allowing you to customize it for your specific needs.

The 18 gpm log splitter pump is a purpose built pump and is designed to handle the rigors of frequent use. The pump is made from high quality materials and will last for years without maintenance. The 18 gpm log splitter pump has been tested and proven to work with logs and other debris up to 5 inches in diameter. The pump can be used as an inline or submersible pump and comes complete with pressure gauge, check valve and flexible hose.

The 18 gpm log splitter pump is ideal for anyone who needs to move debris from a pond to another location or for anyone who wants to split their own wood without the use of an expensive gas powered splitter.

The 19 GPM Wood Splitter Pump is a high-performance pump designed for use in residential and commercial settings. This pump is ideal for use in fire protection systems and is able to deliver 100% duty cycle air flow up to 19 gpm. The 19 GPM Wood Splitter Pump features a horizontal discharge design that makes it ideal for use with propane tanks and other applications where vertical discharge pumps would not be suitable.

The 1″ NPT male inlet thread provides a secure connection that won’t leak, while the cast iron construction provides durability and long-term performance. The 19 GPM Wood Splitter Pump also includes an integrated check valve that helps protect against backflow should the pump stop working unexpectedly, preventing dirt and debris from being sucked back into the system.

The 22 gpm log splitter pump by Rural King is a quality pump, that offers great performance at a low price. This is an ideal pump for anyone who needs to move water from a pool or pond to their garden or lawn. It can also be used for livestock watering or other outdoor uses.

The 22 gpm log splitter pump has 1/2 inch NPT female threads and comes with it’s own filter kit. The filter kit includes an inline filter housing, filter screen and cap. The filter screen is designed to keep debris out of your pump, while the cap helps prevent water from entering the intake when there are no logs to be split.

The 28 gpm 2 stage hydraulic log splitter pump features a 2 hp motor with a 1.5 GPM flow rate at 3000 PSI. The pump comes with an air cooled diesel engine, which will ensure that your equipment runs smoothly and efficiently. This pump is ideal for small to medium sized jobs, including those at home or in the workplace.

The unit comes equipped with a 12-inch stroke and a 6-inch rod lift, which means that you will have no trouble splitting even the largest logs. The 28 gpm 2 stage hydraulic log splitter pump is also very easy to operate – simply fill up your reservoir with water and oil mix, attach it to your pneumatic hose and go!

This 28 gpm 2 stage hydraulic log splitter pump also includes an adjustable pressure regulator valve so you can adjust the amount of pressure that goes into the cylinder depending on what type of material you are working on or how hard it is for you to split the material. This makes the unit very versatile since there are many different types of wood out there that require different amounts of pressure.

The 40 GPM hydraulic pump is the most common type of pump in the industry today. It is typically used for powering a wide variety of tools and machines in construction, mining, forestry and agriculture industries. This unit can be used as a portable or stationary unit and is powered by an electric motor or gasoline engine.

The 40 gpm hydraulic pump features a single stage design with a pressure rating of up to 4000 psi. This pump has been designed with high pressure relief valves that allow it to handle high pressures without damaging the pump. This pump also features an automatic start stop system which allows it to shut off automatically when no flow is detected in order to prevent overheating. The motor can be mounted on either side of the pump so they can be used horizontally or vertically depending on application needs.

The best log splitter pumps maintain their power and performance over time. If you want to get the most out of your log splitter pump, it’s important to properly maintain it.

A log splitter pump will work hard for you, but if you don’t take care of it, it won’t last long. To make sure your log splitter pump lasts as long as possible and performs well, follow these tips:

Keep the engine cool. A warm engine can cause damage to your pump, so make sure you let the engine run for a few minutes before shutting it off. This will allow the oil inside to cool down before you shut off the engine.

Clean out any debris from around the base of your log splitter pump after each use so that no dirt gets into the engine or on any moving parts inside. Make sure there are no leaves or other debris stuck in between moving parts that could cause damage if they get caught while in motion (like gears).

Adjusting the pressure on a log splitter is an easy process that can be done by anyone. The first thing you will need to do is locate the pressure adjustment knob, which is usually located on the front of the unit. If you are having trouble locating it, consult your owner’s manual or call customer service for assistance.

Once you have found the adjustment knob, turn it clockwise until there is little to no resistance when you pull on it. Next, grab a log that measures around 12 inches in diameter and place it between two of the splitting wedges. Push down firmly on the handle until you hear a click sound from inside the unit and then let go quickly. This will adjust your unit’s pressure and allow for better splitting performance for larger logs.

If you find that your log splitter does not have enough power for larger logs, try adjusting the pressure down again until you feel comfortable with how easily it splits smaller pieces of wood.

Log splitters are a great way to get the job done, but they can be a little bit of a pain to use. If you find your log splitter moving slow, there are a few things that could be causing this problem.

If you haven’t checked your oil in a while, it’s important to do so before operating your log splitter. This will ensure that your machine is running smoothly and safely. If you notice that there isn’t enough oil in your tank, add some more before using the machine again.

You may have noticed that your log splitter moves slower if there are large pieces of wood and debris stuck inside of it. This can be anything from small branches to larger logs or rocks. You should always check inside of your machine before using it to make sure there isn’t anything obstructing its operation. If you do find something stuck inside of it, remove it immediately so that your machine can move freely again!

There are many manufacturers of log splitters in the world, but three of them stand out as being the best. These brands are Stihl, Husqvarna, and Honda. The reason they are preferred by so many people is because they are high quality and affordable.

The Stihl brand offers a range of different models that meet most needs and budgets. The 703 is one of their most popular models for homeowners because it’s affordable and does an excellent job at splitting wood. They also offer a number of high-end professional log splitters that are used in lumberyards and other industrial applications like mining operations.

Husqvarna makes some excellent log splitters for homeowners who want to save money over the long term by getting a unit that will last for years before needing replacement parts or servicing. Their 380E is one example which has been designed to be easy to use even by beginners without any experience with this type of equipment before.

The Honda brand produces high quality hydraulic pump for wood splitter that have been proven over time to be reliable and effective at doing their job well without breaking down easily or needing repairs frequently like some cheaper models might do after only a few months use or less if used regularlyThe 380E is a great choice for anyone who needs to split wood on a regular basis and wants the best possible quality product that will last for years of use without needing repair or replacement parts.

A log splitter is a machine that helps you cut down the logs into smaller pieces. It can be used for splitting wood, but it can also be used to split firewood, tree stumps and branches.

If you want to buy a log splitter, it is important that you know what size cylinder do I need for my log splitter? There are many different types of cylinders available on the market today, so how do you know which one is right for your needs?

It is important to remember that the bigger the cylinder you select, the more power it will have. If you plan on using it for cutting logs and firewood, then it would be best if you purchased a large cylinder. However, if this is not what you plan on doing with your machine, then it would be best if you purchased a smaller one.

You should also consider whether or not there are any special features that come with your machine or not before purchasing one. For example, some machines have dual pistons which allow them to work faster than other models out there in the market today. This will save time when working with your machine so that you don’t have to spend as much time cutting down trees and splitting them into smaller pieces by hand.

The hydraulic cylinder is used in the log splitter machine. It is responsible for compressing the wood and splitting it into small pieces. The hydraulic cylinder has a piston inside, which moves up and down as you press the lever of the machine. If your log splitter does not work properly, it means there is air inside your hydraulic cylinder. In this case, you need to bleed your hydraulic cylinder to remove air from it.

Remove the cylinder cover from your log splitter by removing two bolts that hold it in place. Put these bolts aside so that they do not get lost during bleeding process.

Use a socket wrench with an extension bar to loosen three nuts at the bottom of your splitter’s hydraulic cylinder (the part where you attach a handle). Remove these nuts completely and put them aside so that you don’t lose them during bleeding process later on. Loosen two more nuts near top end of hydraulic cylinder, which will allow more air out of this part when you start bleeding process later on.

Attach one end of a plastic hose to the bleed valve on your hydraulic splitter. The other end of this hose should be attached to a bucket or container that can hold at least two quarts of water, which will catch the air bubbles released from your hydraulic splitter during bleeding process.

1.Check the hydraulic oil level in the reservoir. If it’s low, add oil to bring the level up to the “FULL” mark. Use a funnel to avoid spilling hydraulic fluid on the ground.

2.If you’re using a manual log splitter, start by removing the cap or plug from the top of the hydraulic tank and filling it with hydraulic fluid until it’s full enough to reach the “FULL” mark without spilling any excess fluid on the ground or inside your machine’s engine compartment.

3.Replace or reinstall the cap or plug on your hydraulic tank so that no air can enter and make sure that you don’t overfill your tank by allowing any excess fluid to spill out onto your driveway or garage floor while you’re working with this tool.

So there you have it—we’ve taken the time to outline several key considerations that should help you make an informed decision about your purchase. We hope that these tips have been helpful, but if you still have questions, please don’t hesitate to take a look around the rest of our site for more information. As always, happy splitting!

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- Direction 2:  Actuate lever by hand, release it and it stays in the actuated position (active) until the hydraulic cylinder bottoms out (or otherwise senses a spike in hydraulic pressure), at which time the detent will kick the lever back to the neutral position (inactive)

This is the next generation in 2 way hydraulic detent valves. The detent is usually what wears out and causes valves to fail. This valve allows user to adjust the kick out pressure to what they need and as detent balls and grooves wear.

The 2-stage pump can give you faster cycle times and higher possible pressure with a small engine.  Excellent for use on log splitters.  85% efficient.

This 2 stage pump can give you much faster cycle times and higher possible pressures with a small engine. Excellent for use on log splitters. 85% efficient.

Model GP-CBN is a HI/LO hydraulic gear pump with 12 different displacement combinations with maximum pressures of 900 psi for the low pressure pump and 3000 psi for the high pressure. The change from LO to HI pressure is automatic with the LO side pressure pre set from 400 psi to 900 psi.

The HI/LO section of the pump is all aluminum and the end plates are cast steel. Applications for the HI/LO pump are log splitters, presses etc where rapid movement of the cylinder at low pressure is required prior to automatically switching to the high pressure mode to meet load requirements.

This kit includes two coupler halves and one rubber spider. The default set is L090 1/2" and 1". Please message us if you need a different size. You can choose from L090 3/4" 5/8" 7/8" 1" or 1-1/8"

This is the next generation in log splitter valves. The detent is usually what wears out and causes valves to fail. This valve allows user to adjust the kick out pressure to what they need and as detent balls and grooves wear.

In addition to being great "build it yourself splitter" parts, our cylinders will replace your original worn-out double acting TSC, Huskee, SplitMaster, Oregon, SpeeCo and many other Log Splitter cylinders that have the double-ear mounting clevis as shown in our pictures without any modifications needed. Most of the time they are direct-fit.  All fit-up dimensions are listed in the picture section of this add.

new member here trying to figure out how to fix my wood splitter. i have an older model mtd wood splitter, 25 ton i believe. this was my father"s and it had been sitting up for about 6 years before i brought it to my house to start using. the rubber gasket b/w the couplers had dry rotted and i couldnt figure out what size i needed so i thought i would take them off and take them to the local small engine shop to make sure i got the right size. the coupler on the shaft for the hydraulic pump was real tight and i ended up breaking the shaft. i have found the replacement pump for this splitter and it is $600, which is a little too much for me to stomach spending on this thing. my question is this: would it be possible to buy another pump which is cheaper to replace this one with? if so, what should i look for to make sure it is compatible?

i am also going to try and take the pump apart to see if i can take it to a machine shop and have a new shaft built, but i have been told that if i mess up any of the seals then it will be worthless b/c they dont make any replacement parts for this pump. thanks for any advice

A hydraulic pump is one of the most important and critical parts of a log splitter. It is responsible for providing the force used for driving the logs into the wedge for splitting. The quality of the hydraulic pump is of paramount importance while selecting a log splitter. In this article, we are going to discuss the factors that you need to consider while determining the size of the hydraulic pump. Before going into it, let’s look at some of the common pump sizes available in the market.

The size of the cylinder is the deciding factor between the time taken and the force produced by it. A big cylinder has a large volume and is thus filled by more fluid as compared to a smaller cylinder. It will exert more force and will need more time to refill the fluid. On the contrary, a small cylinder will take less time to work and will deliver less force. It has a fast working speed. Pascal’s law governs the working of a hydraulic pump. This law states that if pressure is applied to any part of a restricted (inside the cylinder) fluid, the energy applied will be transferred to the entire liquid without any losses. The reason behind this is that there are no external forces acting on it. This principle is used to convert mechanical energy into hydraulic energy, which pushes the log towards the wedge.

When you are dealing with hard logs such as bur oak, red oak, sugar and silver maple, American beech, red alder, balsam poplar, and ash, you need more force. With such hard trees, speed is not a concern; the main concern is to get the work done properly. So an ideal pump in this scenario will be one with a large cylinder capable of delivering more power than a small pump.

A speedily working hydraulic pump comes in handy when you are cutting softwood. Common softwoods in North America are Douglas fir, eastern white pine, hem-fir, ponderosa pine, and redwood. They can be cut easily without the need for additional force. For these woods, a pump with 11 and 13 GPM will be great.

A log splitter pump needs to be adjusted periodically. Pump adjustments are carried out to keep it filled with fluid. Hydraulic pumps also require maintenance in terms of refilling the fluid inside them and making sure that every other component is working fine. We suggest that you go through the user instructions that come with the pump. These instructions will guide you about pump maintenance, adjustment, fluid volume, and type.

The pump adjustment is needed to increase the pressure during cold weather to keep things moving. If you are using a manual hydraulic pump, you still need to make some adjustments. It is obvious that you can’t make adjustments to the foot panel. What you can do is change the position of the log. You can place the log vertically on the slider and then push it towards the wedge.

Hydraulic log splitters have made our lives easy. Without them, the wood industry would have been very slow and lagging. Without a hydraulic pump, splitting logs would have been very difficult and tiresome. Make sure you keep the hydraulic pump in mint condition by maintaining it properly.

Log splitters are designed with a simple process in mind: to split logs efficiently. To do so, almost all use a hydraulic system to pressurize the driving force of the splitting wedge. When you purchase a log splitter, you don’t have to worry much about the individual parts other than for basic maintenance needs and cleaning purposes.

But if you are interested in building your own log splitter, which is a very realistic option due to the simplicity of the machinery, then you do need to know what parts are best for effective splitting power. Gas and electric splitters utilize a hydraulic pump which is the integral component of hydraulic power. If you were wondering what size hydraulic pump for a log splitter you need, this article explains below its use and what to look for.

Log splitters are powerful machines that provide a splitting pressure to logs of various sizes. Almost all splitters use hydraulics whether it is pressurized via an electric, gas, or manual power source. These hydraulics feed a splitting wedge of your model of choice to make short work of just about any size log you you need to cut down to size.

One of the simplest hydraulic systems you can find in use is a log splitter. The basics of hydraulic pressure utilize an engine, oil pump to create oil pressure, a hydraulic cylinder that works with a valve for splitting power, and tank to hold and feed oil through the system.

If you are serious about making your own backyard log splitter, then you want to have, at a minimum, the following components to provide the right amount of force and power for basic splitting of averaged sized, seasoned logs:

But you may want a bit more force for heavier workloads, which is why I’ve explained below how a pump can help determine your splitter’s speed, and influence the cutting force. Read more about how a log splitter works, how to care for it, and what you need to build your own.

Mentioned multiple times above is the use of a two-stage pump that is most common for a hydraulic log splitter system. This is because it uses two different sets of gears doing the pumping to keep you machine running smoothly and providing the power you need at the speed you desire.

Although a two-stage pump is the best option for your log splitter, you can manipulate the amount of force it exerts through which size cylinder you choose. To calculate your own splitter’s force and speed based on the choices you make, you can use this handy calculator tool.

The entire splitting system is dependent upon the pump that consists of two pumping sections and an internal pressure sensing valve. One of these sections generates the maximum flow rate rated at at lower pressure that is used to draw the piston back for the system to reset after splitting. The other section provides the highest possible pressure to generate maximum splitting force.

Knowing the maximum pressure generated by a pump determines the splitting powerof the pump, and one thing you will notice is that most companies are fairly generous in their tonnage claims and round up more often than not. To figure the tonnage provided by the splitter, simply multiple the maximum pressure of the pump (a two-stage pump applies about 3,000 PSI), by the total surface area of the piston in square inches. The resulting number is the total available pressure.

You also can determine the cycle time of a piston to figure how quickly you can work through a pile of logs. To move a 4 inch piston 24 inches (the common piston length) you need 301 cubic inches of oil. Since a gallon of hydraulic fluid takes up 231 cubic inches, you need to pump, at a minimum, 1.5 gallons of fluid to push the piston in one direction.

The flow rate of the pump is dependent on the size of the engine powering the system. If your engine is capable of providing an 11 gallon per minute rate, then it will take approximately 20 to 30 seconds to cut, and around 10 seconds to reset. Common horsepower minimum requirements for a two-stage pump are:

For a dependable machine, you want to incorporate a two-stage pump to work with whatever size engine and cylinder you decide upon for cutting wood. These keep your splitter working smoothing and efficiently, and allow you to dictate speed and force to handle whatever size job you have in mind. If you have any further questions, or want to add to this information, please do so below. And, as always, please share.

IMPORTANT! Never operate a log splitter without the appropriate amount of approved hydraulic fluid in the reservoir tank. Operating a log splitter without sufficient reservoir fluid in the hydraulic system may result in severe damage the hydraulic pump and would be reason to void the factory warranty.

DO NOT MIX DIFFERENT TYPES OF HYDRAULIC FLUIDS. Use only one type of an approved lubricant. If the type of fluid already installed in a unit is unknown, the recommended procedure is to drain that fluid completely and refill it with all of the same type fluid.

Our log splitters have varying fluid capacities depending on the model and style. Most units have either a 3.5 gallon, 4 gallon, or 7 gallon reservoir. Please refer to the appropriate product Operator"s Manual to determine the capacity of the hydraulic reservoir of a particular model.

These fluids are all non-foaming hydraulic fluids and available from our Online Parts Store, most hardware stores, automotive supply, farm equipment retailers, and other major home improvement supply stores.

Keep in mind that the volume of the reservoir tank is less than the unit"s total fluid capacity. Fluid also needs to be primed into the hydraulic system (hoses, filter, valve, pump & cylinder), which may require as much as an extra gallon when filling the complete system.

To prime the hydraulic system, fill the fluid to the appropriate level as instructed in your Operator"s Manual. Disconnect the spark plug wire and ground it against the engine. Then pull the starter rope on the engine 10 to 15 times. This will allow the pump to push fluid into these other areas of the hydraulic system. Your reservoir level should go down, so you will need to re-check it and fill to the appropriate level.

Before splitting any wood, you should extend and retract the wedge at least 12 cycles* to remove any trapped air in the system. Again, check and fill reservoir as needed.

This is an excellent replacement pump for log splitters, hydraulic presses, snow plow power units and a variety of other agricultural power equipment. Mounting Positions: Horizontal & Vertical This two-stage gear pump provides faster cycle times with an over-all higher pressure rating, so you can squeeze every bit of power out of your equipment.

This log splitter hydraulic fluid constructed with high-quality oil suck pipes, which needed to be cleaned often, our pump work in a low-noise condition.

This hydraulic pump is equipped with other hydraulic tools that can carry out lifting, pressure type, elbow, bending row, straightening, cutting, assembly, demolition and many other works. Reduce labor intensity.

Used in applications where extending a hydraulic cylinder is needed, truck tailgate lift, RV leveling, scissor lift, dump trailer, lift truck, snow plow, aerial platform, road signs, material handling, wheelchair lifts, etc.

These are high-quality, cast iron hydraulic Hi Lo log splitter pumps. This pump is a Hi-Lo unit, which means it closes your blade quickly, then produces maximum PSI to split the wood, using minimum HP compared to a gear pump.

or a 36 Lpm or a 17.2CC, 14 GPM / 51LPM, and this pump requires a minimum of 10 HP. Any less HP risks not making maximum Pressure resulting in less tonnage & the possibility of stalling the engine.

The Champion Power Equipment 90720 7-Ton Horizontal Gas Log Splitter is small on size but big on power. If you’re looking for a quick, dependable and portable solution for log splitting, this is the unit for you.

Depend on the reliable recoil start to start up the powerful Champion 79cc single-cylinder OHV engine, which features a cast-iron sleeve, a 0.3-gallon fuel tank, 0.4-quart oil capacity (recommended 10W-30) and a low-oil shutoff for safety.

Never struggle to lift a large, heavy log onto your log splitter again. The low-profile design makes it much easier to load a large log onto the splitting beam, and the integrated log cradle keeps the log safely in position. This small but mighty machine handles logs up to 19 inches long, weighing up to 50 pounds.

Seven tons of splitting capacity deliver the power you need for the job at hand. The hydraulic oil system has a 1.5-gallon oil capacity and operates at 3 gpm to power through tough logs.

Champion designed this log splitter with a skewed wedge to increase splitting efficiency, plus it has a 20-second cycle time and dependable auto-return valve, which is capable of 180 cycles per hour.

The 2-stage gear pump reliably adjusts flow and pressure by delivering high flow/low pressure when there is no resistance and low flow/high pressure when cutting through a log to increase productivity.

This log splitter will fit easily in any truck bed, plus it’s easy to move from one job to the next with the comfortable handle and 10-inch never-flat tires.

This log splitter is EPA certified and CARB compliant. Buy with confidence - our reliable support and network of service centers will back your purchase up with a 2-year limited warranty and FREE lifetime technical support.