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How to Safely Use a Pneumatic Press

Presses are widely used across the manufacturing industry. A wide variety of different presses serve different purposes in specific industrial scenarios. The most popular of these is the pneumatic press — or air press machines.

The pneumatic press utilizes compressed air or inert gas as a source of energy and power. To do this, air is forced into a cylinder at the top of the press. When pressure is applied to this air, it moves the press piston downwards to perform a specific action, such as punching, stamping, bending, shearing, or other functions. This makes pneumatic presses different from mechanical and hydraulic presses, which both utilize different types of power to provide power to the pistons/rams.

While each one of these types of presses does have safety mechanisms, it is important that you fully understand how to properly use these machines.

In this post, we review pneumatic press safety.  But first, here are the main differences between pneumatic and hydraulic presses.

Difference Between Hydraulic and Pneumatic Press Machines

There are many differences between the hydraulic and pneumatic presses, and it’s critical that any shop looking to invest in a press thoroughly understands the distinctions between these two machines.

  •       Function. While the pneumatic press leverages compressed air as a power source, the hydraulic press uses pressurized liquid. For most hydraulic machines, this liquid is some type of oil. Hydraulic presses contain a piston that presses down into a chamber that’s filled with oil. This pressure causes the oil to move and press onto other components that ultimately move the press downward to perform a function.
  •       Speed. Pneumatic presses are much faster than hydraulic presses—around 10 times faster. This makes pneumatic presses well-suited for most industry scenarios, as faster speeds and outputs lead to greater efficiencies and better cost control. However, the slow speed of the hydraulic press can be advantageous for some industry needs such as hydroforming.
  •       Force. The hydraulic press contains greater force than the pneumatic press, which may be ideal for some industries. Hydraulic presses offer better performance when working with extremely heavy materials or a large variety of thick resources.
  •       Cleaning. Since pneumatic presses operate within a closed system where the air is the only incoming material, they rarely need to be cleaned. Hydraulic presses, on the other hand, utilize oils, which means that they must be on a regular cleaning schedule.
  •       Environment. Since hydraulic presses use oil, they carry the potential to negatively impact the environment. Issues such as oil leakage can taint equipment, require expensive oil replacements, and cause environmental hazards. The pneumatic press, of course, has a very little environmental impact due to its power source, which is only air.
  •       Noise. The pneumatic press typically creates more noise than the hydraulic press due to the nature of compressed air.

A Guide to Pneumatic Press Safety

Employee safety is the single most crucial component of every industrial setting. Therefore, it’s important that you properly train your employees and operate each piece of equipment with care and diligence.

Here are some pneumatic press safety tips that any shop using a pneumatic press should follow.

  1. Properly release all compressed air

Whether the pneumatic press is shut down, undergoing maintenance, or merely inactive, it’s critical that the compressed air in the machine is released correctly. Every pneumatic press should have a release valve – usually labeled “lockout/tagout” – that will safely and effectively release all compressed air back into the environment. Failure to release air properly can result in serious injury to employees. Make sure to be diligent when it comes to any form of stored energy.

  1. Restrain all tubing

Tubing is often overlooked in shop settings. However, pneumatic press tubing has the potential to cause injury if snapped or broken. To mitigate some of this risk, simply group bundle/bond all tubing.

  1. Proper training

Like any shop machine, adequate training is critical towards reducing potential injuries. It’s crucial that all employees are trained to industry standards on any new or old machine the shop.

  1. Risk assessments

Again, like all other machines in the shop, performing regular risk assessments on your pneumatic press can mitigate potential safety hazards.

Pneumatic Presses from AIM Joraco

The pneumatic press is one of the most popular presses for many reasons: it’s fast, accurate, and clean. For most settings, the pneumatic press is a better choice than the hydraulic press due to its speed and simplicity.

When it comes to using one, always make sure you use they pneumatic press safety guidelines to ensure your workers do not risk injury.

To learn more about pneumatic press systems from AIM Joraco, please contact us.

How Does a Pneumatic Press Work?

From dental equipment to roofing guns to tractor brakes, you will find pneumatic systems in a wide range of applications. In manufacturing, machining, and other industrial applications,  pneumatic presses offer a range of benefits, including power, speed, cleanliness, and low maintenance. These presses generate a force greater than manpower alone can supply. It can be used for pressing, squeezing, forming, and other actions in myriad industrial settings.

How Does a Pneumatic Press Work?

The potential force of a pneumatic press comes from compressed air or gas. An electrical charge sets the machinery into motion, feeding compressed air or gas into cylinders or tubes connected to the actual press mechanism. When the gas fills the tubes, the resultant pressure forces the movement – usually downward – of the press mechanism.

How Does a Pneumatic Press Work?

The potential force of a pneumatic press comes from compressed air or gas. An electrical charge sets the machinery into motion, feeding compressed air or gas into cylinders or tubes connected to the actual press mechanism. When the gas fills the tubes, the resultant pressure forces the movement – usually downward – of the press mechanism.

When this movement is complete, the gas then escapes through exhaust valves, and mechanical springs push the mechanism back into its original position. Direct acting pneumatic presses are the most widely used type in industrial applications.

Differences Between Mechanical and Pneumatic Presses

There are several key differences between the pneumatic press and its counterparts, such as hydraulic or mechanical presses. These include:

Method of Operation

Hydraulic presses function on similar principles to pneumatic presses, but instead of compressed air, the driver for their movement is a fluid—usually a type of oil.


Pneumatic presses do not typically require much in terms of maintenance. If there is a leak, for example, then only air escapes, which can be easily replaced once the leak has been repaired. Conversely, if a hydraulic machine leaks, it loses fluids, creates a mess that requires time to clean up, causing increased expense for both the lost fluid and the downtime.


Pneumatic presses often operate at very high speeds, whereas hydraulic presses are much slower in their movements. Since pneumatic presses operate with air instead of liquid, they cannot achieve the same level of consistency in their application of force that a hydraulic press can. The optimal choice between a pneumatic press and a hydraulic press often comes down to the speed and pressure requirements of the intended application.

Pneumatic Press Safety Procedures

As with all industrial machinery, it is important to follow rigorous safety guidelines when working with a pneumatic press. Here are two important recommendations to ensure the safety of pneumatic press operators:

1. Properly release compressed air. The sudden, improper release of compressed air can cause serious injury or death. Therefore, it is vital that works know how to properly release the machine’s compressed air. Each press should have a relief valve – often called a dump valve – that allows the air to escape in a controlled fashion. The dump valve should be used before press inspections, during emergency situations, in another lockout/tagout scenarios, or when operations are completed—if the press is inactive, there should be no compressed air in it at all.

2. Restrain all equipment tubing. Tubes that contain compressed air may be hazardous if they break loose from their sockets or spring a sudden leak. Therefore, it is important to bundle them together with cords or bonds that will reduce the risk of a tube whipping out and harming a worker. For higher pressure applications, it may be necessary to encase the tubes in extra protective equipment.

How Pneumatic Presses Can Benefit You

Pneumatic presses can be used in many commercial and industrial applications, offering fast, clean, affordable, and low-maintenance power for machinery across myriad industries. At AIM Joraco, we have been experts and innovators in the field of pneumatic presses since 1947. We provide comprehensive pneumatic press solutions to clients in manufacturing, assembly, and more.  

If you think a pneumatic press solution could be the answer to a challenge in your operation, please
to discuss your options or request a quote.

Evaluating Pneumatic Press System Malfunctions: 6 Steps to Take

pneumatic press usesIf your business relies on pneumatic press machines to keep operations running smoothly, you’ll understand why dealing with unexplained equipment issues is so frustrating. When you can’t perform the pneumatic press uses as intended, your entire business may be disrupted. In order to restore productivity and maintain employee safety, it’s essential that you invest time in evaluating your pneumatic presses when something goes awry. To that end, here are six steps to take when evaluating pneumatic system malfunctions.

  1. Prioritize Safety: Before you can actually assess what’s wrong, you have to take the proper safety precautions. If you fail to follow procedures when inspecting pneumatic systems, you may leave yourself and others around you vulnerable to serious injury. Ensure that the electrical power supply has been turned off and that all safeguards have been employed before inspecting or repairing pneumatic press components. Lockout valves should be used whenever possible to prevent accidental operation.
  2. Conduct a Visual Inspection: Your evaluation will begin before you ever touch any part of the pneumatic system. Taking a simple walk around the machine itself may illuminate the source of the issue. It could be that a component is loose or broken or that a hose has burst. If you can identify the root of the problem right away, you’ll save valuable time and can move on to the repair or replacement stage without delay.
  3. Read All Documentation: If you are unfamiliar with the various pneumatic press uses and components, you must take the time to peruse the schematic drawing and the service manual for the press. The schematic drawing can explain how each component functions and point to likely sources of trouble. The service manual can also offer valuable troubleshooting advice and help you to determine the likely source of the malfunction. Even if you’ve been working with pneumatics for quite some time, you should still look over these documents carefully when trying to assess the issue.
  4. Ask What, When, and Where: You need to have a strong understanding of the issue at-hand in order to tackle it properly. But that might not always be easy to come by. It may help if you keep three questions in mind. First, ask what is (or is not) happening in the system’s operation that deviates from its normal settings. Normally, stroke cycles for pneumatic press uses can reach speeds of up to 400 strokes per minute; however, if there’s a disruption in these stroke cycles, you’ll need to determine this deviation first. Then, ask when the problem began. A sudden breakdown will point to a very different problem than a gradual failure. Finally, ask where in the cycle the problem occurs. An issue that presents itself immediately after starting up the machine will likely not have the same cause as a problem that pops up well into the operational process. The answers to these questions can inform your understanding of the condition; you may be able to determine whether it’s a recurring issue or whether it’s an emergency that came out of nowhere.
  5. Operate the Machine: After you’ve taken safety precautions and evaluated the aforementioned information, you can carefully operate the machine once more to assess whether the problem will present itself again. In order to determine the problem, you’ll need to see it in action. Remember to visually inspect the machine while it’s in operation. During this time, you should see whether there’s any obvious air leakage, whether all specified levels are being met, and how all the components move together. After this operation, you can make a list of likely causes that either you or a repair professional can check out.
  6. Repair or Replace When Needed: In order for your business to accurately perform the necessary pneumatic press uses, repairs or replacements may be required. You or your repair professional will narrow down the list of possible problems, after which the most likely issue will be conclusively tested. If this test reveals the cause, you can then repair or replace the component responsible for the malfunction. After this has been performed, you’ll report your findings to maintain good record-keeping for your pneumatic system.

Pneumatics and Roller Coasters: Why These Systems Are More Thrilling Than You Thought

When the average person pictures pneumatic presses, they might think of an industrial manufacturing application that they never really get a chance to see in action. And that may often be the case, considering that pneumatic press machines often do work “behind the scenes” to make the products we use on a daily basis. pneumatic systemsBut while you may think pneumatic press uses are rather mundane, the reality is that we have pneumatics to thank for some of the most exciting attractions we experience. That’s right: they’re frequently used in our favorite roller coasters and thrill rides at amusement parks all across America.
The origins of pneumatic systems can be traced back to the 18th century, but they’re still being used today in many of the most beloved theme park rides. Let’s take a closer look at the hidden ways pneumatics allow us to experience so much fun.

Where You Can Find Pneumatic Systems in Coasters and Thrill Rides:

Even before the actual ride begins, pneumatics are at work. When the coaster train comes close to the loading station, there are usually gates that make sure you can’t enter the attraction prematurely. But suddenly, when the time is right, the gates open all at once. This simultaneously timed opening is thanks to a pneumatic cylinder system. It’s a very sophisticated system in that the pressure is precisely controlled so that the gates can open completely but that this is done in a gentle way.
Once you enter the ride and sit down, you’ll be restrained in some way into the seat. There may be a traditional method like a seat belt, but there will also be something like a lap bar that keeps you in place. The lap bar is held in place via a mechanical system, but the release of the lap bar is typically due to pneumatics. The restraints are released or locked in the loading and unloading station when the cylinders break or complete the circuit. While there is typically a mechanical override system set in place, your ability to be secured and released before and after the ride is usually attributed to a pneumatic system.
Traditionally, air brakes could be found in just about every roller coaster. These brakes utilize pressurized air in a way that’s mimicked in other types of pneumatic presses. However, those types of brakes aren’t as popular today. You’ll often find magnetic brakes in today’s coasters — but pneumatics still play a part. Strong magnets are used to bring a car to a stop, but these magnets are so powerful that they need to be physically removed so that the train can move forward into the loading station after passengers exit the ride. Pneumatic technology is used to move those magnets away, allowing the train to progress and be loaded all over again.
But pneumatic cylinders are used for more than rider safety. They can actually add to the overall experience of the ride, as well. Pneumatic cylinders may be used to create the illusion of wind, speed, or a sense of being launched into the air. Dark rides often employ the use of pneumatics to create a unique sensation of motion or wind (for example, on Epcot’s “Soarin'” ride). Although it may seem like a menial component, this effect can really make an impact when it’s used in culmination with small motions, sound, and other components. Pneumatics, in the form of air actuators, are also used in animatronic figures. The use of a pneumatic system can even make up for a lack of speed and movement in general, making a ride much more realistic and immersive.
And if you don’t love traditional roller coasters but still love a thrill, you can experience pneumatic systems on drop tower rides. Compressed air systems are used to propel the ride carriage upward and then released from tubes in specific increments to “drop” the carriage. Then, compressed air is used to cushion the carriage when it reaches a certain point.
Next time you go to an amusement park, you might look at some of your favorite rides a little differently. You might be even more amazed by the pneumatic systems than by the rides! 

The Many Advantages of Hydropneumatic Presses

Hydropneumatic presses are initially driven by compressed air only, and then they activate the hydraulic power stroke automatically. These presses combine the benefits of pneumatic systems and pneumatic hydraulic presses, taking the pneumatically driven fast stroke, which approaches the workpiece with low force, and combining it with the automatically-activated hydraulic power stroke that engages when it encounters resistance.

As a result of this combination, the applied energy is used to the most economic effect. Hydropneumatic presses do not need a hydraulic power pack, and they can also be used where space is at a premium.

Advantages of Hydropneumatic Presses

There are many benefits of using hydropneumatic presses, including:

  • These presses use compressed air as their primary source of power, and it results in the inexpensive and reliable implementation of piping systems and components. This completely eliminates the need for expensive hydraulic components such as hydraulic oil.

  • The use of compressed air leads to a quicker approach and retraction which results in a faster response.

  • Hydropneumatic presses are lightweight and compact, which makes it easy to mount them on a table. Additionally, there is no need to install a hydraulic power pack, which can save you a lot of floor space.

  • These presses are serious energy savers. They can save up to 50% in energy inputs over fully hydraulic and pneumatic systems, and they can save more than 70% in terms of cost compared to traditional hydraulic systems.

  • Hydraulic presses are relatively easy to use. This is because of their simple sealing components and pneumatic elements.

Many people prefer to use hydropneumatic presses over hydraulic presses for a variety of applications, like bending, riveting, forming, marking, clamping, punching, and straightening. And that’s because the presses have several advantages over different types of equivalent hydraulic systems.

Machine tool production is concentrated in roughly 10 countries around the world, and it’s no secret why hydropneumatic presses are an important part of that industry. If you have more questions about these phenomenal pieces of equipment, don’t hesitate to contact our experts at AIM Joraco today.

Rivet Machines Explained: How to Make the Best Choice For Your Needs

Rivet MachineRivet machines serve as a modern alternative to manual riveting, making the process far easier, more consistent, and less expensive to perform. It’s no surprise that countless industries have long-since abandoned manual riveting in favor of riveting machines. But since there are now so many different types of rivet machines available, choosing the right equipment for your exact needs can be a bit of a challenge. In today’s post, we’ll discuss the different types of riveting machines and how to evaluate them based on your business’s specific requirements.

When choosing a riveting machine, you’ll first need to decide whether you want a manual feed or an automatic feed machine. As you might have guessed, manual feed riveting machines require some human guidance — typically via a hand lever or foot pedal, which are used in conjunction with a mechanism that delivers the initial setting force. Automatic feed machines do not require an operator, instead relying on a feed track and a hopper to perform the action in a self-regulating fashion. If you are familiar with pneumatic systems, you’ll recognize that automatic riveting machines often utilize similar technologies (like pneumatic cylinders) to operate.

Once you determine how much human interaction will be required to perform these functions, you can take a closer look at the groups and specific types of machines available. There are essentially two broad groups of riveting machines — orbital (also known as radial) and impact.

The main feature of an orbital riveting machine is its spinning forming tool that, when gradually lowered, forms the rivet into its desired shape. Orbital machines offer a bit more control over the final product and are ideal for projects that contain fragile components. Although cycle times are bit longer when you use this machine, the results are generally more long-lasting.

Impact riveting machines operate by driving the rivet in a downward motion via force so that the materials can be joined together. This downward motion pushes the materials together and forces the end of the rivet onto a forming tool (called the rollset). The rollset causes the rivet to flare outwards and therefore joins the two materials together. These machines work very quickly (much more so than orbital machines), making it appealing for businesses with large outputs that want to lower their costs. While impact riveting is typically a semi-automatic process, it can be integrated with automated advancements. They may contain pneumatic components or may operate without them, depending on the type of machine.

Riveting machines of all kinds are used in a variety of applications, ranging from leather goods and mobile phones to components for aircraft and trains. Ultimately, your choice of rivet machine will often come down to the amount of automation required, the desired speed, and the materials in question. What’s perfectly suited for fragile materials and small rivets will probably not be ideal for extremely strong metals that require extra force.

Now that you have a better idea of the main types of riveting machines, you’ll be able to contact your resource for pneumatic press machines and other equipment to discuss the best type and model for your organization.

Pneumatic Press Safety Tips To Follow

Pneumatic presses are certainly not new, as their origins can actually be traced back to the 18th Century. This technology may be enduring, but advancements are always being made. And as pneumatic press progress continues, the need for worker safety does, too. When using pneumatic hand presses and bench presses, proper safety precautions are an absolute must. In today’s post, we’ll discuss just a few tips to follow when using pneumatic press machines in your facility.


Release Compressed Air

There are many components within pneumatic presses that can pose a danger to workers. Chief among these potentially hazardous elements is the thing that makes air press machines so unique: their compressed air. If released improperly, this compressed air can actually cause serious injury (or death, in certain cases). It’s essential that this compressed air be released the correct way during emergency shut-down situations, before maintenance checks, or whenever these pneumatic hand presses or bench presses are not in active use. Your machine should have a dump valve that releases the compressed air in a monitored environment. This valve is often referred to as the “lockout/tagout” safety valve or the relief valve. When this valve is engaged, it removes all pressure from the machine, thus eliminating the safety risk. It can also reduce confusion about whether the machine still contains compressed air or not in these situations, which also improves overall safety.

Restrain Tubing

Another feature of pneumatic presses that can present a hazard is its tubing. While the dangers are often overlooked, a tube containing pressurized air can do a lot of damage to sensitive areas, particularly the eyes, if it breaks. It’s important, therefore, to keep tubing restrained via group bundling or bonding. Additionally, adding features to guard the tubing in case it breaks (resulting in a rapid whipping motion that can result in injury) can be a good step to take.

Conduct a Risk Assessment

When utilizing pneumatic presses in your place of employment, it’s vital that you take all necessary safety precautions. That includes training your employees, complying to industry standards, and conducting risk assessments. These risk assessments will help to assess the space needed for these machines, the possible hazards it poses, and ways to decrease or eliminate the source of risks. By conducting a risk assessment, you’re making a commitment to protect your workers (and therefore, your business) from harm.

Pneumatic hand presses and bench presses are often necessary for creating a given product. But proper safety precautions must be taken to ensure the longevity of your organization and your workers. These tips can allow you to reach those goals — as can having the highest quality equipment available. To find out more about our pneumatic systems, please get in touch with us today.

Basic Troubleshooting For Your Pneumatic Bench Press

If you own a pneumatic bench press, it can be difficult to identify the source of the problem. To obtain an accurate diagnostics, the best course of action would be to take your pneumatic bench press to the manufacturer. In the meantime, there are a few steps you should take to diagnose and troubleshoot common problems associated with your pneumatic presses.

First: Ask a question

Ask yourself what you use your benchtop pneumatic press for; if you work in fine arts, it might there might be a sticky residue affecting the performance of your machine or if you work in industrial work, it might be a problem with the pressure regulator.

To begin to see what the problem is, perform a thorough inspection of your machine and look for any of the usual symptoms associated with your line of work. Pneumatic bench presses are used by a range of industries and each comes with its own set of problems.

Read your machine’s schematic handbook

Your press should have come with a handbook or other form of documentation regarding troubleshooting. They will often come with diagrams, showing the correct placement of certain valves, grippers, and pressure settings. If any of these seem as if they are out of place, try adjusting them before trying other troubleshooting options.

Inspect while you use the machine

If there are no apparent problems when your machine is not in operation, perform a visual inspection while the machine is operating. You should look for signs of air leakage, drastic changes in system pressures, and any faults when the system moves. You might have to get the help of a colleague or a friend to stay safe while the machine is in operation. With a pneumatic press, one issue may be causing smaller issues elsewhere.


While some pneumatic hand press machines or other types of hydropneumatic press may require simple lubrication or part replacement, it is essential to consult a professional when you make any major changes to your machine. 

If a malfunction in your pneumatic press has been resolved, be sure to record where and when the incident took place to ensure you’re keeping an accurate log. This may be useful in the future if any other problems may occur.


In countless industrial settings, shop presses are used to perform a variety of physical tasks. Capable of applying anywhere between one and thirty tons of pressure, shop presses can be extremely useful throughout several settings.

Two of the most commonly used shop presses are the hydraulic press and the pneumatic press. Undoubtedly, hydraulic and pneumatic presses are two of the most common machine tools and are in fact made to accomplish similar, if not the same, jobs. While hybrid models like pneumatic hydraulic presses exist, these two types of shop presses function differently and do have separate considerations to keep in mind. In today’s post, we’ll discuss some of the main differences between the two as well as how they can be a vital addition to your business.

Pneumatic Presses
First, let’s talk about what the word “pneumatic” means. It is defined as either containing or being operated by gas or air that is put under pressure. It’s no wonder that these tools are also referred to as air press machines, as they are controlled by manipulating pressurized air. This tool performs its duties by having air be forced into a tube; when pressure is applied to that contained air, the press then moves downwards and goes onto perform the task (i.e., squeezing, forming, pressing, etc.). After that, the air is released through the press’s valves and its springs move the pump back up. The action is then be repeated if necessary.

With keeping the pneumatic press in mind, it is important to think of why so many businesses utilize the pneumatic toggle press and other types of pneumatic tools. For one thing, they’re speedy. They can perform functions much faster than hydraulic presses can and are very easy to use. In addition, it’s action can be halted at any time. The press is low-maintenance, versatile, and durable. Overall, the pneumatic press is considered to be dependable and comes with few risks.

Hydraulic Presses
Unlike pneumatic presses that use air or gas to operate, hydraulic presses are machine tools that are operated through utlizing a liquid that moves under pressure. It’s a similar idea in that putting pressure on an element forces the press itself to perform its intended function. Hydraulic presses contain a piston which presses into a chamber that’s typically filled with oil. The pressure causes the oil to move and puts pressure on either a baseplate or another piston that is pressed in a downward motion.

Hydraulic presses are considered to be both dependable and strong. They’re also well-suited for very specific types of jobs, particularly with tougher materials or when large amounts of products need to be pressed. The main difference of the hydraulic press compared to the pneumatic press is that they perform their task at a much slower rate, which at points is an advantage, and the Hydraulic press does require quite a bit of maintenance. If you use this type of press, you’ll have to use other devices to monitor the oil pressure and the press’s efficiency.

In conclusion, both pneumatic and hydraulic presses come with their own sets of advantages. Either press may actually be preferable over the basic mechanical presses. Though these two presses can be used for many of the same jobs, the choice between the two will really depend on the industry and the specific task-at-hand. Any business may even end up requiring both types of presses used at different times. To find out more about how our pneumatic press products can help your organization succeed, please contact us today at or (401)232-1710. 

The Importance of Pneumatic Presses in the Automotive Industry

From the beginning of the 17th century, pneumatic toggle presses have become one of the most crucial (and unsung) inventions in the industrial world. Today, pneumatic toggle presses are used in various industries for their efficiency and multi-functionality. Several objects we use daily rely on pneumatic presses during the production phase. Automotive production, for example, requires air press machines for a variety of crucial applications.

Astoundingly, pneumatic bench presses handle operations that are both delicate and forceful. These types of operations can include assembling certain parts like electrical connectors and fasteners, inserting ball bearings or bushings, and installing highly precise components such as the needles of speedometers. Pneumatic bench presses and manual presses also have the capability to complete jobs including the assembly of fuel injectors, control arms, pumps, ball joints, transmissions, locks, and wipers. With the capacity to perform a wide variety of actions, such as inserting and clinching, pneumatic presses are extremely versatile. They can even be used to disassemble — and then reassemble — specific automotive parts and protect the integrity of these assemblies.

In fact, drivers all over the world depend on these machines whether they realize it or not. The equipment assembled and installed by pneumatic toggle presses and other machinery must be efficient, reliable, and safe. We need our vehicles to quickly get us from point A to point B without incident, and these presses play an extremely important role in ensuring that cars are assembled correctly every time. In the modern age, automotive robots with pneumatic components are used to help with this production process. Of course, businesses still find pneumatic presses to be essential even if they don’t utilize manufacturing robotics. This just goes to show how pneumatic machines continue to evolve.

Each business — at each step of the process — may require slight differences in pneumatic toggle presses. While they can handle a variety of jobs, the force requirements and production volumes of a given job will serve as some of the main factors in determining which press will be appropriate. However, given the fact that pneumatic presses provide a consistent, safe, and simple means of assembly and installation, these cost-effective and in-demand pieces of equipment are likely to remain a fixture in the automotive industry for many years to come.

To learn more about how our pneumatic presses can help your business succeed, please contact us today for a quote by calling us at (401)232-1710 or going to our website,