Key Questions to Ask When Ordering Servo Single Point C-frame Press

21-Nov- Top 6 Types of Hand Press Machines and Their Benefits

The metal forming machine tool, commonly known as the press machine, forms metal into a given shape. A force or pressure is applied to the metal to form or cut it. A press machine helps you form metal into any desired shape without removing chips. The only type of work the presses can handle is mass production. The main advantage of these machines is that they're the fastest and most efficient way to turn any sheet metal into a finished product. Types of Press Machine The classification of different types of press machines is given below: 1. Manual Press Machine The operator operates a manual hand press machine using a handle and presses the machine himself. The simple structure of the machine is a C frame, punch, die, handle, and guide rail. The ram rotates and goes up and down, and the force applied via the lever propels the punch in a linear motion. A manual press machine can be used for punching, blanking, and bending (for small runs or easy production). Also operating a manual hand press with proper safety is also important as it inherits  alot of risks. 2. Hydraulic Press Machine The ram, pushed by the hydraulic press machine, passes many hydraulic components in the oil cylinder, typically mounted on the top beam. The hydraulic press machine has safety switches and sensing systems to guarantee operator safety. There can be two types of hydraulic press standard and non-standard, each of them has their own benefits. So choosing the right one is also crucial. The increased capacity, stroke, and customizable tonnage make a hydraulic press machine more suitable for producing complex workpieces. It is also ideal for forming, punching, and other sheet metal work. 3. Mechanical Press Machine Different kinds of mechanical press machines process sheet metal using mechanical energy. Mechanical press machines are faster than hydraulic press machines for stamping. Indeed, the mechanical press machine exerts force at different rates, making the gun stroke unsteady and hence unjustifiable for manufacturing complicated workpieces. Mechanical press machines manage repeatable processes at a swift pace and with rapid production, pushing down the cost of mass production. 4. Pneumatic Press Machine Pneumatic press machines are operated by compressed gas. The gas is compressed and expanded to increase the pressure on the inside of the cylinder. The pressure in this pneumatic press machine does not need to be changed as it is constant throughout the stroke. A pneumatic press machine should maintain the working pressure while in use; otherwise, the press stroke will be irregular, and process monitoring will become very difficult. A pneumatic press machine is ideal for bending, punching, cutting, and extrusion. 5. Punching Press Machine In sheet metal technology, punching machines punch workpieces or cut holes (or mold sheet metal). Punches and dies for punching machines come in different sizes and shapes. Machine forces are applied to the punch, which is positioned beneath the plate and moves downwards. There are two varieties of punching press machines: C-frame and H-frame. 6. Stamping Press Machine The stamping press machine creates metal sheets by applying pressure. Its work table and punches interlock to keep the plate in place while cutting or punching to the desired shape. Given its size and complexity, it needs a lot of power to drive. The stamping press machine producing the workpiece may have imperfections on the surface and poorly cleaned punching holes. Press Machinery Benefits in Manufacturing ● Increased Efficiency: In machinery pressing, manufacturing processes are controlled, and time and labor are saved in other methods. ● Cost Savings: Press machinery enables the accomplishment of accurate, consecutive tasks, which leads to minimal loss of material and minimizes errors, which reduces costs. ● Enhanced Product Quality: Precision in size and quality is assured with press machinery compared to when produced through hard work, making it superior. ● Versatility: Press machinery can be easily arranged to handle almost any kind of material that may be needed, and most of its parts can be used in many other productions, which makes it more efficient. ● Safety: Some press machines have features such as two-handed controls and emergency stop buttons that help reduce accidents. ● Customization: For instance, a business's specific manufacturing requirement can be met by customizing the press machinery to its intended use. ● Competitive Advantage: Hence, businesses spend more on new-generation press machinery and are in a position to expand production capacities and product quality, which gives them a competitive advantage. Conclusion Press machinery of various types is used in the construction and manufacturing sectors. Hydraulic, mechanical, and pneumatic presses are the most common types. Both have advantages, including increased flexibility, lower costs, and increased safety. Today, many companies are able to invest in machinery presses due to their ability to increase capacity, improve the quality of goods, and sustain competitiveness. Since press machinery is responsible for pressing, molding, or shaping materials, it is indispensable to industry development and is part of modern production. A way of looking at the creative side of manufacturing is through press machinery.

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READ FULL 18-Nov- Standard vs. Non-Standard Hydraulic Presses: Which Is Right for Your Business

Hydraulic presses are a common feature of many industrial setups and are widely used in multiple sectors, including automotive, aerospace, and heavy equipment. They perform a variety of tasks by exerting a controlled force to form metal. These tasks include punching, molding, bending, and stamping. These hydraulic presses execute the metal forming work with a high level of precision. If you are equipping your manufacturing facility with a hydraulic press, you will have to decide between two versions. One is a standard hydraulic press with a common design configuration, while the other is a non-standard hydraulic press with a custom design configuration, which gives a much more streamlined performance based on your specific industry needs. Here, explore the benefits and drawbacks of each version of press so that you can make the correct decision to level up your manufacturing. What is a Standard Hydraulic Press? This type of hydraulic press is factory-manufactured and has a pre-configured design. It is constructed according to industry standard specifications. Some common design configurations include C-frame, H-frame, and four-post designs. Features of Standard Hydraulic Presses ● Fixed capacities, stroke length, and bed sizes for handling a standard material amount. ● The execution of tasks is limited to general tasks like stamping. Compression and bending ● Ready-made design that can fit a range of industrial settings Benefits of Choosing a Standard Hydraulic Press ● Inexpensive: Standard hydraulic presses are manufactured at a large scale, which large scale means that they cost less than customized presses. This is really useful for small manufacturing firms with a limited budget. ● Quick delivery and Easy setup: Standard presses are manufactured and delivered much more quickly. They can be manufactured from scratch much quicker, and most manufacturers maintain a stock of standard hydraulic presses that are ready to be shipped. ● Easy to maintain: Replacement components for standard hydraulic presses are widely available, and there is a large aftermarket of used parts, making it much easier to repair and maintain standard presses. Ideal Fit for: ● General-Purpose actions: metal forming, such as punching and stamping, do not require special or unique measurements and shapes. ● Mass production:  where the products have exact dimensions and high output output. ● High Tolerance: where measurement variation is not acceptable during a production run. What is a Non-Standard Hydraulic Press? This kind of hydraulic press, also known as a custom hydraulic press, is engineered for a specialized application and has a specific design. Custom presses have unique features in every aspect, from frame type to tonnage, stroke length, bed size, and user interface. Features of Non-Standard Hydraulic Presses ● Tailored design: Custom hydraulic presses are specially constructed to make highly specialized products with unique shapes, dimensions, and sizes. ● Advanced features: Custom hydraulic presses also come equipped with special features like additional sensors and custom controls that adjust a non-traditional production cycle. ● Specialized Configuration: Customizations for specific requirements like material handling or giving shape to a part with complex geometry are only possible with a non-standard press Benefits of Custom Hydraulic Press ● Crafted for High Tolerance: Such presses have higher than average precision to handle specialized tasks for niche manufacturing. ● Highly Adaptable: Variable speed settings, sensors, and automated loading systems are regularly seen on non-standard presses. ● Greater Efficiency: A non-standard press is made for a specific manufacturing need and is hence capable of higher productivity, as it has faster cycle time and better accuracy. Ideal Fit For: ● Non-standard Production: Products with a unique shape require presses with different stroke lengths and bed sizes that are not commonly part of a standard press. These require a specially made hydraulic press. ● Industry-Specific Quality Control: Many sectors, like aerospace and medical manufacturing, have their own quality standards that require much higher precision than other products. A non-standard press is designed to meet such exacting standards much more easily. ● Large dimensions: Many irregular shapes of objects cannot be handled by standard presses, and custom presses are seen as more useful in such manufacturing. How To Select The Right Option? A decision regarding what to choose between a standard and custom hydraulic press all boils down to assessing your business's needs. Ask yourself: What is the volume and quality of my production? High-volume, commodity, or standard-product jobs fit better with standard presses, while customized services are better suited to custom applications. If your processes change in the future or you may require one-of-a-kind specifications, how critical is flexibility? What is my budget and timeline? Standard is the way to go if you need a press immediately and at a lower cost. A custom press might pay off in productivity and long-term value if the budget and lead time are flexible. Conclusion Overall, each standard and custom hydraulic press has its place in the modern manufacturing landscape. The high ease of deployment in standard presses makes them ideal for faster cost efficiency where production needs are predictable and repeatable in business. Although more expensive and time-consuming, custom presses offer essential, tailored precision and unique capabilities required in specific manufacturing. Hence, opt for the one that will strike a chord with the needs of your business, achieve its production results, and cater to growth aspirations so you optimistically utilize your investment in the hydraulic press.

READ FULL 30-Oct- Safety Tips and Guidance For Manual Hand Press

Manual hand press are the workhorses of various industries, and are flexible enough to adjust to every manufacturing setup ranging from a small workshop to a larger manufacturing plant. They can be versatile and affordable for most tasks such as shaping, assembling, bending, or pressing materials. However, being machinery, a manual hand press comes with its inherent risks if used improperly. Understand The Basic Safety Of Hand Press Before using any hand press, you should know what your device looks like and how it should work. Hand presses range from small to large with a variety of shapes, so the first thing before you start using your press is to read the manufacturers' manual. It can tell you how to put the tool together, about its maintenance, how you should handle it, and especially about the maximum pressure the tool can withstand or even about the maximum load weight it can handle. ● Know the machine's capabilities: Every hand press is designed to withstand a specific amount of pressure, so over-straining may result in mechanical breakdown or injury. ● Identify Potential Dangers: Be aware of pinch points, sharp edges, as well as any possible ejection areas where materials could become unsecured. Knowing the mechanics and the limits of what your hand press can do safely is the key to effective and safe operation. Use Right Personal Protective Equipment With a hand press, right personal protective equipment is necessary. Given its application, the possibility of pinch injuries, flying debris, and cuts can be there. All of these can be prevented with the right PPE. ● Eye Protection: Eye protection would protect from flying debris and chips in case of breakage when working with metal and hard materials. ● Gloves: The anti-cut gloves will guard against sharp edges and accidents in which the operator unintentionally scrapes himself. ● Steel-Toe Boots: In case the materials get very heavy, steel-toe boots can prevent accidental drop of the material. ● Ear Muffs: Although manual hand presses are much quieter as compared to automated, yet hearing protection can be provided. It is a good thing for a noisy workshop environment. Most general injuries that may result from a hand press are prevented by proper PPEs. Safe Working Area Preparation A proper working area is one of the major requirements for safe operation. Working in a clean, systematic, and well-illuminated working area highly minimizes the chances of an accident. ● Stable Non-slip Surface: A hand press should be mounted on a solid, non-slippery working bench so that during working, it doesn't shift. ● Clear Area Around the Press: The area about the hand press should always be clear of clutter. Loose items may cause an individual to trip or inadvertently become a projectile if he or she is obstructed by them in front of the press. ● Adequate Lighting: Adequate lighting will enable the operators to see clearly all parts of the machine so that their hands and materials do not enter wrong places. ● Accessible Emergency Stop: Most hand-operated buttons or other types of manual stops don't have an emergency stop available, but understanding how to quickly shut off or de-energize it will be an excellent prevention from injury when disaster strikes. A clean, clutter-free, and neat work station will eliminate distractions and make it possible to focus on the job at hand, free from any interference. Inspect equipment regularly This ensures no untimely breakdown which could lead to injury. The operator should check rapidly and make sure the hand press is in good working order before use. ● Check for Wear and Tear: Check parts which move for signs of wear, such as cracks or rust, or general damage that may affect how they function. ● Lubricate moving parts: Most hand presses require friction-free movement for excellent performance. By following the manufacturer's guidelines to lubricate, the machine will continue to operate exceptionally well. ● Check loose bolts and screws: Vibrations often cause frequent use to loosen bolts and screws. Check all bolts and screws for tightening. ● Replace any broken parts: Replace the part if it breaks to avoid using the hand press. The chances of an accident increase if you are working with a compromised machine. Maintenance prevents malfunctions which can lead to accidents. Utilize Safe Technique Safe technique is the basis of proper working with a hand press. Poor posture, hand positioning, or technique will result in injuries from minor cuts to severe crush injuries. ● Hold hands away from the press points and other moving parts of the press to avoid pinch injuries. ● Where possible, clamps and jigs provide hands-free operation and a reduced chance of injury. ● When the material is not giving way to expected pressure, check for potential problems instead of forcing it. ● Position the hand press and workbench so that it prevents you from bending or overreaching, thus leading to strain and injury over time. Proper techniques for work also ensure safety but enhance the quality of the work being performed. Don't Overload the Hand Press You should not overload the hand press because too much pressure or usage on materials can cause the equipment to break and result in injuries. ● Understand Maximum Load: The manufacturer has a recommended manual of what your hand press load capacity is. ● Work at Capabilities of the Press: Do not use hand presses with materials or jobs for things that are beyond design spec. If the press seems to be resisting then most likely the material may have been too thick and also too hard. ● Refrain Using Extensions for Extra Force: For additional leverage on the handle, do not use the added tools such as the use of pipes or a bar to get more out of the hand press; the breakage and perhaps causing injury can occur from doing that. Staying strictly within the design load rating guarantees the press to work at peak capacity and safety. Undergo Comprehensive Training Training needs to be sufficient, and better at the training sites of freshers. Workshops at periodic intervals of refresher courses about the latest safety measures implemented at any place would surely get the entire workforce educated and aware about the safety requirements. ● On-the-job Training: The supervisor has to provide on-the-job training on how the machinery could be operated safely and serviced properly. ● Encourage questions: Promote a culture in which operators are comfortable asking questions or seeking help on the hand press. ● Supervision for New Operators: New operators should be supervised until they are competent at safe operation. Conclusion Using a hand manual press is quite safe and efficient if certain guidelines are followed. You know, with these safety measures: knowing the machine and its components, proper personal equipment, keeping the environment clear, conducting regular inspection schedules, perfecting technique practice, keeping your eyes peeled, and preparing for an eventuality.

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Introduction to Stamping Presses

Stamping presses have played a big role in manufacturing operations for decades. Some also refer to these machines as power presses or punch presses. From automotive components to intricate electronic parts, stamping presses have long been and still are vital to the productivity and efficiency of manufacturing operations across numerous industries. Whether you currently own and operate stamping presses or are new to metal stamping, this article will provide a basic overview to help you gain a better understanding of the machines responsible for producing the many parts that make up the world around us.

The History of The Stamping Press

Most people point to the 19th century when discussing the origins of the metal stamping press. Before this time, most stamping and metal forming were performed by hand-operated mechanisms, but as populations grew and demand increased, so did the complexity and capabilities of these machines. In the late s, presses powered by steam were developed. These early developments dramatically improved manufacturing operations' productivity, precision, and efficiency.

The 20th century introduced even greater machine capabilities when flywheels and electric motors were incorporated into stamping presses, allowing for dramatically faster production of metal components. Over the years as enhancements and innovations improved, the modern mechanical and hydraulic presses that we know of and use today were developed. These newer machine iterations offer greatly enhanced precision, productivity, control, and efficiency. Early into the 21st century, the servo press was introduced to the manufacturing world drastically furthering what could be accomplished in stamping.

The stamping press's evolution has helped manufacturers keep up with the needs of the modern highly demanding and technological society. Today, stamping presses are more versatile and efficient than ever, thanks to the ongoing improvements that accommodate various materials and complex geometries. The evolution of the stamping press has helped them remain as a key component in modern manufacturing environments by empowering industries with greater production capabilities and finer control over quality.

How Stamping Presses Work

A stamping press functions by converting rotational motion into linear motion, using force to form or cut sheet metal into desired shapes. The press uses a die—a specially designed tool—to shape, cut, or punch materials, such as steel or aluminum, to create specific components. The combination of speed, force, and precision allows stamping presses to produce large quantities of identical parts rapidly and efficiently.

The stamping process involves three key stages: feeding the material, forming the material, and removing the finished product. Raw metal is fed into the press, where the machine’s ram moves down with force, shaping or cutting the metal through the die. Depending on the type of stamping process—such as blanking, coining, or drawing—the press can create different parts with high repeatability and accuracy.

Anatomy of a Stamping Press

Becoming familiar with their main components is important to better understand stamping presses.

Frame

This is the main structural body that holds all other components in place. The frame must be robust enough to withstand the dynamic forces produced during stamping.

Press Drive Mechanism

The Drive mechanism of a press powers the movement of the ram. Based on the type of press, it can be mechanical, hydraulic, or servo-driven. From there the classifications are then broken down even further based on the type of connection between the drive and the ram, which we plan to discuss in a future article.

Ram

The moving part that applies force to the die and forms, cuts, or punches the material into the desired shape. It is powered by a drive system, which as mentioned above depending on the type of press machine can be mechanical, servo, or hydraulic.

Press Controls

The PLC (Programmable Logic Controller) allows the operator to program and monitor the operation of the press. Today state-of-the-art presses come with digital controls that have provisions and functions to make stamping more accurate and consistent, while also keeping operators informed about the status of the machine.

Die Set

The tool that gives the desired shape to the workpiece. Dies are typically comprised of an upper and lower portion with the upper portion mounted to the ram and the lower portion mounted to the press work table or bolster plate. Stamping dies can be custom-made for each specific part to be manufactured.

Work Table/Bolster Plate

The fixed lower part of the press, where the lower half of the die is mounted and withstands the working force. For some stamping operations, the scrap or complete parts fall through an opening in the bolster, which can be customized based on the needs of the user.

This is not an exhaustive list of press components and parts, as many other elements of a press are crucial to their operation, but this serves as a good starting point for those who are new to this type of machinery.

Types Of Stamping Presses

Though the mechanisms, controls, and applications may differ, the core principle remains the same for the different types of presses, and that is they generate a great deal of force to be used in forming, cutting, or drawing metal into a desired shape. Another way in which stamping presses are categorized is according to the different types available for use in different applications, all with their own set of advantages. The main classifications are mechanical, hydraulic, and servo presses.

Mechanical Stamping Presses

Mechanical presses achieve their stamping action through energy stored and released from a large flywheel. The mechanical press's ability to produce parts at high speeds enables them to be better suited for higher-volume production environments. 

Advantages:

High speed 
Production capability with consistency 
High-volume manufacturing feasible 

Hydraulic Stamping Presses

Hydraulic presses use a hydraulic cylinder to develop force, which provides more control over the press operation. Hydraulic presses are capable of high tonnage that can be applied at any point in the stroke, which makes them suitable for work involving deep drawing, complex forming, and advanced high-strength materials.

Advantages:

High tonnage capacity
Precise control over force and speed
Well-suited for deep drawing applications or large workpieces

Servo Stamping Presses

Servo presses, as evidenced by the name, utilize servo motors to drive the press ram. Servo presses possess the ability to program the stroke motion profile. This enhances their precision, flexibility, and efficiency. Such presses are ideal for applications involving the stamping of complex parts. The servo motor provides very accurate control over the press stroke, speed, and position; hence it is a great solution in high-precision manufacturing.

Advantages:

High-precision and flexibility
Efficiency
Complex stamping tasks

In this article, you can see how servo presses match up to their mechanical counterparts.

Common Press Frame Configurations

Stamping presses are available in different frame configurations, all of which are designed for specific applications, with various advantages for each.

C Frame Presses

The open frame design of the C frame press allows easy access to the worktable, the die, and the workpiece. C Frame presses are also commonly referred to as gap frame presses or OBI presses (open-back inclinable). These presses are compact and versatile, making them suitable for smaller stamping dies, or environments where floor space is limited.

Advantages:

Compact
Versatile design
Easy access to die and workpiece

If you want to learn more, please visit our website Servo Single Point C-frame Press.

Learn more about our range of high-quality C Frame stamping presses.

Straight Side Presses

A straight-side press has a rigid frame structure that offers high precision, stability, and oftentimes additional working space. Therefore, it is used for heavy-duty stamping operations, large workpieces, and for progressive or transfer stamping applications. The straight-side design provides minimum deflection equating to higher accuracy and consistency in more demanding stamping applications. These presses also commonly have higher tonnage capabilities making them ideal in industries such as automotive or appliance manufacturing.

Advantages:

High precision and stability
Suitable for heavy-duty operations
Minimal deflection
Larger workspace

View our range of straight-side stamping presses.

Applications of Stamping Presses

Stamping Presses are utilized in nearly every industry at various points in the manufacturing process. Odds are a majority of the items you interact with on a day-to-day basis have some sort of stamped components. Some of the most significant uses are in the following industries:

Automotive Manufacturing

Stamping presses in the automotive industry are used as standard equipment for making body panels, mounting brackets, engine parts, and other common components of vehicles. In this case, the accuracy and efficiency of stamping presses guarantee the quality and quantities of the parts because they have to meet the rigid requirements demanded by the automobile industry.

Aerospace Manufacturing

The aerospace industry also resorts to using stamping presses to produce high-precision and high-volume components.

Electronics Manufacturing

The stamping press enables the production of small, intricate parts to be used in electronics and for electric connectors. In some high-volume electronic manufacturing operations high-speed stamping presses are utilized to produce as many of these small intricate parts as possible. Such parts find their application in consumer electronics, telecommunication devices, and other applications.

Appliance Manufacturing

Stamping presses are used to manufacture a variety of appliance components including structural elements, panels, and intricate fittings. Working with several different materials and producing products with uniform quality has made the stamping press an integral part of the appliance manufacturing industry.

Medical Component Manufacturing

Medical devices and their components demand a very high level of precision and reliability making stamping presses an ideal production solution for some areas of this industry.

The industries listed above are only a few of the more common areas where a stamping press may be used, but they also play a big role in other areas like consumer product manufacturing.

Advantages of Using Stamping Presses

Precision and Accuracy

Stamping presses allow for high productivity, precision, and repeatability in manufacturing components to meet exact quantities, specifications, and tolerances.

Efficiency and Speed

Modern stamping presses, like mechanical and servo presses, offer highly efficient production capabilities. Mechanical presses offer higher speeds and more simplicity, which raises efficiency, shortens production time, and enables the production of parts in very large quantities. Servo presses, while typically slower than mechanical presses, have the unique capability to program the stroke as needed.

Versatility

They can process various materials and make components that differ in size, shape, and functionality.

Cost-Effectiveness

Stamping presses can require a hefty up-front investment, but in the long run, they can bring dramatic cost savings and, if maintained properly, remain in operation for decades. The precision and efficiency of these machines ensure minimized material waste and greatly reduced potential errors in production.

Stampings Press Safety Considerations

Stamping presses generate high forces and have many moving parts, which, if not managed properly, can be seriously dangerous. This makes safety the number one priority above all else. Most modern presses incorporate several safety features to prevent operator injuries.

Guarding

Guards prevent access to the point of operation and other hazardous areas of the press. Common forms of guarding are physical barriers, light curtains, and interlocking safeguards.

Emergency Stop

An emergency stop button allows an operator to stop the press immediately in case of an emergency. This is an important feature to prevent injuries, accidents, and serious damage to the machine.

Training

Proper training is essential for an operator to be capable of running the press safely and efficiently. Training programs should include machine operation, safe working procedures, and emergency response in the event of an accident.

Visit the Precision Metalforming Association's website to learn more about their operator training resources.

Maintenance of the Stamping Press

Regular maintenance is required to maintain the longevity of the press and better performance. This involves lubricating, inspecting, and replacing worn parts.

Lubrication

Proper lubrication minimizes friction and thus reduces wear on moving parts. This extends the life of the press while also aiding in maintaining the overall performance. Operators must check the press manual or with the manufacturer to determine what types of lubrication are suitable for their particular press.

Inspection

Inspecting the ram, die, and drive mechanism components regularly ensures the press runs trouble-free. Regular preventative maintenance inspections can help technicians spot issues before they turn into major repairs. 

Replacement of Worn Components

The common wear components need to be replaced to prevent damage to the press and sustain precision and performance. One way to ensure minimal downtime is to keep an inventory of the common wear items to avoid lead times or delays when parts are needed.

Future Trends in Metal Stamping Press Technology

Stamping press technology and processes are only evolving further with new technological advancements and manufacturing requirements changing continuously.

Automation and Robotics

Stamping processes are increasingly being integrated with automation and robotics. Automation enhances efficiency, decreases labor costs, and improves safety by performing any type of repetitive or dangerous tasks. In recent years manufacturing operations have sought out automation and robotics as a means of combatting the ongoing labor shortages. 

Smart Manufacturing

The adoption of smart manufacturing technologies is shifting the stamping industry. Those technologies provide real-time monitoring and insights into the optimization and status of stamping processes.

If you are looking for more details, kindly visit Servo Straight Side Double Points Press.

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