what size hydraulic pump for log splitter pricelist

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.

This depends on your wants vs. needs, so we’ll try to help you discover what is most important. Let’s be honest. You likely want the biggest, baddest, tonnage to effortlessly split wood like it’s butter. Besides, it helps to stroke your ego too – admit it. But in reality, you likely just don’t need that much log splitter tonnage or features. Why spend more cash on log splitter parts and equipment when you just don’t need it?

Did you know the average rental size unit in the United States is a 26-ton log splitter?  Most non-commercial projects just don’t need more tonnage than that.

Here’s a general guideline based on the Janka Hardness Test. This test measures the hardness of various wood species based on the necessary pounds-force (lbf) needed to embed a steel ball into the wood.  Now obviously, this is just a general specification. Every piece of wood is different; different grain, temperature, dampness, dryness, etc.

Be careful. It may seem like a great deal to get a larger tonnage log splitter for about the same price or a little more than say the average 26-ton or 34-ton splitter. That’s not always the case when it comes to log splitters or log splitter parts.

It is common to find higher tonnage wood splitters from no-brand or value brands; however many have very slow cycle times compared to reputable brands that cost more. If you don’t mind splitting one log to every 4-5 logs of a better brand with faster cycling, then no worries.

Swisher log splitters have very solid 28-ton and 34-ton log splitters. Swisher has been in business over 60 years, and their prices will compete with any import on the market.

· 16GPM Powerful Pump: This hydraulic pump comes with a 25 GPM auto control detent valve. It features a 3600 RPM max rotating speed, 2250PSI valve setting along with a 16GPM high flow rate. It will bring powerful performance to your log splitter. Get ready to start cutting logs in half, in half the time.

· 1" Inlet & 1/2" NPT Outlet: Our log splitter pump is equipped with a standard 1/2" NPT outlet port ( for Minimum 8 HP engine) and 1" barb on the inlet port. It also has a 1/2" diameter shaft with a 3/8" key, allowing it to rotate clockwise. Quality you can trust, for unmatched results you can see.

· Sturdy ＆ Durable: The high-strength extrusion aluminum casing enables the pump to resist impact, rust, and high pressure. This sturdy structure can prevent leaks and ensure a prolonged service life.

· Simple Installation: This pump stands out with a 4-hole bolt-on design, and it allows for a direct and quick installation. Install the pump effortlessly, making your log splitting more effective and robust.

· Doesn"t Just Split Logs: The 2-stage hydraulic pump is excellent for log splitters, press, machine tools, and power units for snowplows. It has outstanding compatibility with many OEMs like Speeco, Huskee, Champion, and many more.

This 2-Stage pump fits a wide variety of log splitters and outdoor power equipment and works in both horizontal and vertical orientations. The included inlet nipple requires a 1" inner diameter suction hose.

Rated for up to 3,000 PSI at 3,600 RPM, this pump can power log splitters from 5 to 35 tons, depending on the inner diameter of the hydraulic cylinder. It features a fast cycle time by moving quickly when unloaded. It automatically shifts to low-flow/high-pressure mode at 500 PSI.

Be sure to use AW-32 10-Weight (ISO 32) or AW-46 20-Weight (ISO 46) light hydraulic fluid or Dexron III automatic transmission fluid. This pump is not designed for use with “universal” or "tractor" transmission oil, such as "303". The use of incorrect fluid may damage the pump and void the warranty.

Make sure the hydraulic fluid reservoir is not below the pump to ensure a sufficient flow of fluid to the pump. Suction-side filtration should be no finer than 150 microns. The use of a 10-25 micron filter on the suction side of the pump is too restrictive and will cause failure.

We recommend using an L-style jaw coupling to connect the pump to an engine. Couplings and mounting brackets are available. You should use at least a 5hp 163cc engine to maintain 3,600 RPM under load.

This pump is a Hi-Lo unit, which means it closes your blade quickly, then produces maximum PSI to split the wood. It is rated to 3600RPM max. This pump requires a minimum of 15 HP

Hi, Lo two stage pumps are by far the best option for log-splitting setups. Their ‘Magic’ is that you can achieve much higher PSI & flows( = speed & max tonnage!), with little HP compared to a regular hydraulic pump.

Hi, Lo hydraulic pumps operate in two modes. When there is no load (on the return stroke), they pump a larger volume at low pressure and move the cylinder back quickly. When the ram hits the wood the pressure increases and the pump switches to high pressure / low flow mode. A hi-lo pump speeds up the whole cycle process due to the fact that most of the time, the cylinder is moving with little or no load, which requires less power & less force to move the splitting ram. This pump requires a minimum of 15 HP. If not enough HP is available, the pump will not be capable of making high enough PSI, which in turn creates the high tonnage required. Tonnage will be determined by the Bore size of your ram, for example, a 4" bore ram will produce 16 tonnes @ 3000 psi, whilst a 5" bore ram will produce 26 tonnes @ 3000 psi

So if you are looking for a Hydraulic Component for the Earthmoving, Manufacturing, Transport and or the Marine Industry you have come to the right place.

Here at Beiler Hydraulics we stock a full range of log splitter pumps. Log splitter pumps automatically switch from high-speed/low-pressure to high-pressure/low-speed to meet the load requirements. The low-pressure side is preset at 400-900 psi, and the high-pressure side has a max of 3,000 psi. These pumps are ideal for log splitters, presses, or any application where you need to automatically switch from high speed at low pressure to high pressure at low speed. Beiler Hydraulics also stocks many other Log Splitter Parts including valves, cylinders, hose assemblies, and fittings. With our multi-million dollar inventory we are more than equipped to provide a complete solution for all your hydraulic needs. Our sales team has the knowledge and expertise to make sure you have exactly what you need. At Beiler Hydraulics we believe in offering quality products at competitive prices and providing the customer service you need before, during, and after the sale. Please Contact Us today with any questions or to place an order.

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.

The best wood splitter for one person may not be the best for another. There are many factors that go into making a smart decision that not only gets the job done, but also does so in a way that ensures that you are not wasting money.

A quick note before we get into the nuts and bolts: At Wood Splitters Direct, we have attempted to make all our log splitters very customizable to fit your splitting needs. You will see options on some listings like four way wedges, log cradles, dislodgers, etc. This gives you the ability to modify your splitter just the way you like it! All you need to do is add the options to your cart to see see the new pricing of your custom built splitter. Also, remember that the price you see in your cart includes shipping and taxes, too!

This can be somewhat of a difficult question to answer. Sometimes, what we want out of a wood splitter and need from a wood splitter are two totally different things. A lot of the time, our answer is: "From what you"ve told us, you really don"t need that much tonnage." Then there is a pause on the line before our customer replies, "Are you sure? I was kind of set on a 45 ton."

Don"t get us wrong, we will definitely sell you a larger log splitter if that"s genuinely what you want. However, we will only recommend what we genuinely believe you need… and we"re not afraid to say so. We"ve found that most people just don"t require as much force, consistently, for the vast majority of their splitting projects.

Now, that being said, we will be the first to admit that in certain situations it just makes sense to go with the bigger splitter after you"ve already narrowed your choices and you"re doing the last "apples to apples" comparison.

It"s worth keeping in mind that the average rental size unit in the United States is a 26 ton log splitter because most non-commercial projects just don"t need more tonnage than that.

We"re offering a general guideline based on the Janka Hardness Test. This test measures the hardness of various wood species based on the necessary pounds-force (lbf) needed to embed a steel ball into the wood.

One of the biggest mistakes we see, time and time again, is when people buy a 45 ton log splitter instead of a 26 ton or 34 ton log splitter because the price difference between the lower tonnage and the higher tonnage is similar. So, they figure: "Hey! Same price plus I get a bigger log splitter? What a deal!"

Many "value" and "no name" brand log splitters that boast higher tonnage (37 tons through 40+ tons) at lower costs will have much slower cycle times than similar tonnage units from the more expensive, more reputable brands. In fact, some of these "off" brands are so slow that you can go grab a cup of coffee, come back, and still be waiting for the unit to finish splitting a piece of wood.

The flip side is that some "value" and "no name" brand log splitters are too fast. Yes, this really can be a bad thing because these splitters can be so fast that they"ll out work you in a very short amount of time. Unlike a person, machines are tireless, so don"t get sucked into the 3-5 second cycle time sales pitch. Most people can"t work that fast nor do they want to. Unless you"re working in a commercial setting with at least one other person, you will end up stuck with a cycle time that you just won"t be able to utilize.

In the end, what good is paying "less" for something if it"s actually going to cost you more time, more effort, and more hassle than if you"d just gone with a dependable log splitter that has the right tonnage for the right price?

One of our best selling log splitters, by far, are Brave Log Splitters. They are less expensive than many of the other brands" similar log splitters. Although they are less expensive, no matter which Brave log splitter you choose, you can feel confident that it will get the job done!

The Iron and Oak brand is known for having the best commercial log splitters. The Iron and Oak 30 Ton Vertical / Horizontal Log Splitter has just about everything most people would ever need from a log splitter. As a matter of fact, this log splitter is one of the most common rental units found in several large chain rental stores in the USA.

Oregon is another brand that has a solid reputation. When you choose an Oregon Log Splitter, you"re choosing a brand that has been perfecting their products since the late 1940s.

If you"d like to consider other brands, Boss Industrial log splitters have a very solid line up of log splitters. This company has strong roots in the United States that have spread out to make them one of the top wood splitting brands, manufacturers, and innovators in the world. Their patented hydraulic system features a full set of gears - not half gear systems like most other brands.

Everyone has different splitting needs but most people just don"t need a 45-ton splitter. In fact, getting one might actually create more work for you in the long run. It"s important to weigh your options carefully before spending your hard earned dollars. The good news is that we"re always here to help you get the best log splitting power for your workload as well as for your bank account.

Still have questions? Always feel free to contact us at 888-706-2434 if you need help choosing a log splitter. We promise to offer only honest, dependable advice and suggestions with ZERO pressure to buy. Our goal is to help you get the best, most serviceable log splitter for your needs… even if it"s not the biggest, most expensive unit in our inventory!

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

It is true the drop down gpm on a dule stage pump is 1/4 of the rated gpm. Example: I have a 16 gpm dual stage pump on my splitter with the pressure relief set at 2500 psi & a 4" x 24" cylinder. When the pump drops down it only puts out 4 gpm. However I have found with a sharp single edged wedge it only drops downs down around 10% of the time. (Elm, some hedge/osage orange are the generally when it happens or if I am splitting 18" diameter or larger rounds)

I started splitting using my tractor (Oliver 1655) which has a 16 gpm single stage pump operating the cylinder. I liked the speed & my family did not want me to go faster so when I turned it into a stand alone splitter, I stuck to the 16 gpm range. After reading many threads talking about single stage, single stage with regenerative circuits, & dual stage pumps I chose to go dual stage. Overall I have not felt I have lost much in output going from single stage to dual stage (both 16 gpm) but have really saved on fuel. We can generally with 2 people, split 3 cords in around 4 hours. (Note I like to split anything 3" or bigger to speed up curing time.)