what size hydraulic pump for log splitter quotation

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.

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.

telescopic cylinders have the most area and most force at beginning of stroke, for hard to start loads like dump trucks. but the area drops off as the sections reach extension, thus more speed and less force.

Double acting telescopics will be at least 10x the cost of a simiilar surplus center standard cylinder. Single acting cylinders with gravity return, like said dump truck, are much cheaper, but still much more than a standard cylinder. The reason for use on dump trucks is simply the space for packaging the cylinder inside the frame. If a long cylinder could stick out the bottom, that is what they would use for reasons of cost, reliability, etc. AgressiveHydraulics does most of our cylinders and they have some cool, but expensive and complicated, telescopic designs.

If you had a pressure gauge on a 5 inch cylinder with a 100 gpm pump or a 100 hp engine, no matter. Splitting pine the pressure will be very low. splitting elm, the pressure will be high. Until the pump reaches unloading pressure, or goes across relief, the speed will be constant based on the fixed volume pump flow. Only the pressure and thus load on the engine to turn the pump, changes.

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.

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.

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.

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.

1) pump. It’s obviously a Vickers vane pump. I tried to decipher the numbers on the pump and came to a gpm of 25ish at 1200rpm. With 100psi max. I don’t feel confidant in my findings, but either way you should have a gear pump, not a vane pump on there. Vane style are for pulling a vacuum, or high flow/low pressure applications. Log splitter pumps are gear pumps. Better for high pressures.

2) tank. Although I get a volume of roughly 14 gallons. It is closer to 12 figuring the actual internal dimensions and the tank is not completely full. General rule of thumb is one gallon of oil per gpm of pump.

Stalling when attempting to split. While this could be nurmous things, but I feel it’s the pump problem. With a max operating pressure of 100psi or so it takes more to typically split wood. (I see up to 1000 psi regularly on my splitter). Your control valve has a relief built in but it probably won’t open until 2000 psi or so. So my guess is what’s happening is, the pump builds up to 100 psi. Then it can’t force the oil any more so it stalls everything out.

I would invest in a new pump that is 2 stage and direct mounted to the engine. The predator 212 is rated at 6.5 hp so you could get a 11 or 13gpm two stage pump. http://m.splitez.com/log_splitter_wood_splitters.html

And now for that trailer it’s mounted too. Is there any chance you can get more clearance around the splitting beam. The way the trailer and axle are, it looks like you’ll end up reaching over it every time you put a log on the beam.

The Low Boy, AM-24H, is powered by a 200 GX Honda engine and 13 GPM 2-stage pump. This is a popular choice for Residential Homeowners throughout the United States and Canada. Clear separation from our competitors is evident as you review this Model. Examples of extended durability comes from 6” I-Beams, 2” Diameter Cylinder Rods and our rigid attention to every detail.

American CLS Inc. legacy of value is built into all of our machines. The AM-25H model is no exception.  The 25 Series Low Boy offers 270 GX Honda engines, longer cylinders and a Hi Lo, 16 GPM 2-Stage Pump for added splitting speed. If you want value, without compromising the Extended Durabilityof your purchase, the American Built AM-25H is for you.

The AM-24HH is built every bit as rugged, as all our 6″ Beam Machines.  No compromises.  A SOLID BASE MACHINE. With Standard 13″ Rim, 5 Lug . Highway Tires . Powered by a Honda 200 GX Engine and 13 GPM 2-stage pump. This American CLS built log splitter, is a popular choice with residential and small businesses throughout North America.

Our 25 Series High Boy(AM-25HH) is a popular choice for customers who appreciate a “tool” that has stood the test of time. The High Boy AM-25HH is powered by a 270GX Honda and is available in 24″(standard), plus optional 30″, 36” and 48″ models.

If you need to split firewood quickly, with a commercial grade machine, look no further than the AM-25S. This wood splitter has a blistering 6-7 second cycle time. And is powered by a 390 GX Honda and 22 GPM Cast Iron 2-stage Pump.

In the vertical position, this splitter is designed for handling large diameter wood with ease, reducing the need for heavy lifting. Our 24 Series is powered by a 200 GX Honda engine and 13 GPM 2-stage pump. and our 25 Series is powered by a 270 GX Honda engine with 16 GPM 2-stage pump.

The AM25-ST splitter is the favorite of commercial operators and property caretakers throughout the United States and Canada. This machine gets the hard work done, and compliments Firewood Businesses needing a real “stump buster”. We are confident that the AM25ST will round out the tools of your operation.

It doesn’t matter how big the log is, you’re in total control of this machine. This splitter splits big (and we mean BIG) logs with ease. Our engineers have built an exciting combination of features and matched it with a powerful 390GX Honda.

With this all steel and chain driven product, these firewood conveyors are ready to work for decades. This heavy duty wood conveyor has been specifically designed to handle any kind of wood. Our conveyors have 3 standard sizes: 20′, 24′ and 30′. All three are powered by a 200 GX Honda Commercial Engine.

I just wanted to let you know your log splitter is one fine piece of equipment. It hasn’t met a piece of wood it couldn’t handle. For the first time I’ve got a stockpile of wood for next season. Thanks for making a great American product and keeping my family warm for winters to come.

Very impressed with the welds and the way it was constructed. Everything is heavy duty and will last a long while. Perfect set-up! Exactly what I wanted! Enjoyed doing business with you, appreciate you staying in touch as you did! Thank you so much!

I am not intimately familiar with the innards of the TO30 but assuming it is reasonably close to the N-series you have roughly 5 gallons of oil in the sump - possibly 6 if my brief research is accurate. The practical limit for flow with that size reservoir is 15 GPM or less. I try to stay at 10 GPM or less on the N"s although I have done a couple at 12 GPM. So if your ditch witch pump is making much more than that you have issues.

The flow rate INTO the 3pt is limited by the size of the internal control valve ports to roughtly 3 GPM MAX. Anything more than that will create so much back pressure in the 3pt lift circuit the 3pt will raise and won"t come down until you shutoff the pump. I use a flow divider in the external supply to split a separate 2 GPM circuit off just for the live hydraulics.

The sumps are "common" but the flow rate between them is SLOWWWW. So if you pull 10 GPM out of the rear and return 3 via teh test port and 7 into the transmssion you will suck the rear dry and overfill the transmission VERY QUICKLY. To address that issue I connect the drains on both sumps together externally using the 3/4" suction line that feeds the external pump. That allows good old gravity to keep levels equal.

This compact, two-stage, external gear pump is designed for use at elevated pressures and is ideal for press-type applications requiring fast approach/retract speeds and slower peak actuator work speeds due to horsepower limitations or safety constraints. Rotation is clockwise viewed from the Shaft end. The 1/2" shafts use 404 woodruff key. anmd the 5/8" Shafts use 3/16". 3600 RPM max. Maximum pressure 3,045 PSI.

Compact, two-stage, external gear Pump designed for use at elevated pressures. Ideal for press-type applications requiring fast approach/retract speeds and slower peak actuator work speeds due to horsepower limitations or safety constraints. 1/2’’ Shafts use 404 woodruff key. 5/8’’ Shafts use 3/16’’ x 1’’ straight key. 4,000 RPM max. Maximum pressure 3,000 PSI.

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When you need firewood equipment, you have to make sure you’re buying equipment that you can rely on to do the job properly and efficiently. The best way to do this is to go to a trusted, reliable company for your firewood equipment.

At Brute Force, we’ve been working in this industry since 1997. We started out as a wood stove manufacturer and repair shop in Northern Wisconsin and have since grown to provide the upper Midwest with firewood processors, commercial log splitters, and other firewood equipment that’s suitable for firewood producers of almost any size.

By turning to Brute Force for your firewood needs, you’ll be working with a company that can give you products specific to your needs. We custom make our heavy-duty and high-powered equipment so that it’s exactly right for the job at hand. To find the commercial log splitter that’s right for your needs, take a look at our different types of splitters below. Then, give us a call at 888-776-1848 to discuss what specifications you would need and to get a free estimate on the final product.

The Brute Force Commercial Pro 20-24 Wood Splitter with Conveyor is a heavy-duty log splitter built for commercial use. Save time and energy by splitting and loading right into a trailer or onto a wood pile.

The model 20-24 comes with a 19 HP electric start Kohler with 28 GPM pump. The following equipment is standard on the 20-24 splitter with attached conveyor: a hydraulically adjustable 4-way splitting wedge & hydraulic log lift.

These are great machines that can handle whatever you throw at them. Take your business to the next level with this wood splitter. The 20-24 is also available for purchase without the conveyor. All of our splitters are able to be towed safely at highway speeds. Call for details and a custom quote today.

The next in the line of the commercial wood splitter is the Re-Split. Splitting large rounds happens and requires time to reset the round to re-split. Time is money, so this splitter resets and re-splits the wood for you.

Now you can make even-sized firewood easier and quicker, in turn maximizing your profits. This log splitter comes standard with a hydraulically adjustable box-type splitting wedge with pull back arm and hydraulic log lift that can be mounted on either side of the machine.

The 26-24 Re-Split comes standard with the following equipment: our fast-split 5" splitter cylinder, auto-cycle splitter, and a 48 GPM double hydraulic pump. Also standard is an integrated 10′ conveyor and torsion axle. This unique splitter makes even-sized firewood without the need to re-split. All of our splitters are able to be towed safely at highway speeds.

Brute Force Log Splitters are heavy-duty, professional Log Splitters. These wood splitters are built to the highest standards and are made to work daily in a commercial firewood operation. Model 13-24 splitter comes with 14 HP manual start Kohler engine & 22 GPM pump.

No matter which model you choose the following equipment is standard: a hydraulically adjustable 4-way splitting wedge and hydraulic log lift. These are great machines that can handle whatever you throw at them. When you upgrade your machine with our optional auto cycle splitter and 2-stage hydraulic pump, you will have the best machine on the market for a combination of splitting power and speed. All of our splitters are able to be towed safely at highway speeds.

The Semi Pro is perfect for homeowners but still built to high-quality standards. The Semi-Pro splitter comes with a 14 HP Kohler engine, 22 GPM 2-stage pump and 3.5″ custom hydraulic cylinder. The Semi-Pro comes with a standard adjustable 4-way splitting wedge. This machine has a 4.5 second cycle time and is the perfect splitter for re-splitting or for splitting smaller wood. All of our splitters are able to be towed safely at highway speeds.

Brute Force Skid Steer Log Splitters are built heavy duty like all of our professional firewood equipment. These wood splitters are built to the highest standards and are made to work daily in a commercial firewood operation. The Stumpbuster splitter comes with a standard floating 4-way splitting wedge which can be easily swapped with a 6-way or 8-way splitting wedge. These splitters are great for breaking down those big rounds into manageable size pieces for an outdoor wood boiler, or to be re-split for other applications.