Justifying the Purchase of a Servo-Driven Press
Historically we have als tried to purchase good-quality mechanical or hydraulic presses, but have recently learned of servo-driven press technology and must decide if it’s right for our company. While servo technology will increase the initial investment, perhaps we can recoup this in a reasonable timeframe with the cost savings realized using the technology. Specifically:
1) Increased parts per minute (PPM —more PPM equals less cost per part).
2) Improvement in part quality (less rejects equals more profit) and reduction in tooling cost.
3) Reduction of raw-material cost.
4) Reduced costs for press and tooling maintenance.
5) A reduction (or elimination) of secondary operations.
6) Reduced energy consumption.
7) Shifting of the “tough-to-make” parts to the servo press.
8) Increased flexibility, which opens the potential for acquiring new customers and entering new markets.
1) Increased PPM
Because the servo drive provides the ability to control press slide velocity at any point in the stroke, we can significantly increase cycle rate while slowing slide velocity only during the working part of the stroke. This allows us to increase the stroke rate while working the material at a slower velocity than we would experience with a standard eccentric crank motion (Fig. 1).
2) Improved Part Quality and Reduced Tooling Costs
The transition to difficult-to-form higher-strength steels and exotic materials in the automotive and other industries has forced the metalforming industry—including press makers—to evolve. These materials are harder and stronger than the mild steels they are replacing, requiring manufacturers to increase press tonnage and bed sizes to accommodate the more complex tooling needed to produce satisfactory parts. Even with these press advances, often it remains difficult—if not impossible—to produce parts that meet the shape and tolerance requirements dictated by customers.
As press tonnage and bed size increases, so does the purchase price. In one instance, an automotive contract stamper overcame this problem by moving a difficult part with significant quality issues from a 1200-ton mechanical press to an 800-ton servo press. It programmed the press slide motion to hit the part three times in rapid succession at the bottom of the press stroke. This procedure proved much more effective in achieving close part tolerances than hitting the part with more tonnage or adding restrike stations to the die (Figs. 3-4). Eliminating restrike stations in the die reduced the overall tonnage required and allowed use of a shorter press bed, minimizing the cost of the press and the dies.
Fig. 5—A North American automotive OEM that installed this four-servo-press line was able to expand the specification range of its raw material, and enjoyed a drop in material prices as a result.
3) Reduced Raw-Material Cost
Formability issues often dictate that the raw-material’s specification range becomes more limited and, as a result, the material price rises. The programmable slide of a servo press often allows metalformers to expand the specification range of their raw material, achieving significant cost savings. In one case, a North American automotive OEM installed a four-servo-press line to produce auto-body and outer-skin components and enjoyed a drop in raw-material prices as a result (Fig. 5).
4) Lower Maintenance Costs
The ability to control slide velocity during the working portion of the press stroke enables stampers to reduce the shock and vibration associated with metalforming operations. Lowering punch velocity during forming also significantly reduces heat generation, with a corresponding improvement in die life.
In addition, taking a the flywheel and main motor drive as well as the clutch and brake mechanism reduces the cost of press maintenance, since we’re eliminating wear components such as O-rings, seals, discs and linings.
5) Reduced or Eliminated Secondary Operations
The ability to program slide motion and incorporate secondary operations into the initial press operation has provided many servo-press users with significant savings. In-die assembly, tapping and welding become much more practical in a servo-driven press because the time required for these operations can be programmed into every press cycle.
Stampers also can eliminate in-process annealing operations with a servo press, due to the precise velocity programs used to form high-strength steels or exotic materials such as magnesium and titanium alloys, Inconel alloys and even some grades of high-strength aluminum. Often, reducing the forming velocity reduces the heating of the material being worked, which limits work hardening and improves formability. However, in other cases the addition of heating elements in the die and a programmed dwell in the press cycle enables the warming of the material being formed, which can significantly improve formability.
6) Reduced Energy Consumption
By applying large capacitance to a servo-press control system, stampers can significantly reduce power consumption—by as much as 10 to 50 percent, or more.
Fig. 7—By applying large capacitance to a servo-press control system, stampers can significantly reduce power consumption —by as much as 10 to 50 percent, or more. In this example, peak load on the factory main line is reduced by 67 percent.
In the accompanying servo-press load-distribution graph (Fig. 7), the heavy blue line represents press slide position and the thin blue line represents the energy required to form the part. The green line shows the energy drawn from the factory’s main power line; the remaining energy consumed comes from capacitors recharged during the nonworking portion of the press cycle. In this example, peak load on the factory main line is reduced by 67 percent. This compared to a standard mechanical press which continues to draw a large amount of power during the nonworking portion of the cycle, since the main motor works hard to bring the flywheel back up to speed between hits.
7) Handling the Tough Parts
Many servo-press users shift production of all of their most difficult jobs to their servo press. As a result, they often turn “losers” into “winners,” enjoying a reduced reject rate and increased PPM. A side benefit: Production time becomes available on conventional presses used for easier work.
One servo-press owner recently noted that it’s now soliciting jobs for its servo press that other stampers find too difficult or costly to quote.
8) Increased Flexibility Leads to New Customers and New Markets
The proliferation of high-strength steels and aluminum grades and increased use of exotic materials bodes well for stampers investing in servo presses. Stampers traditionally focused on the automotive industry can leverage the capabilities of a servo press to look at other markets. Likewise, those concentrated in the appliance market may be able to stick a toe in the automotive market, due to the flexibility of a servo press.
We’ve taken our time and completed our investigation of servo-driven press technology, and have reached a conclusion. Every stamping operation is different and not every metalforming job will run better in a servo press. But, the vast majority will. The servo press has the flexibility to address nearly all problem areas found during metalforming. A testimony to this is the number of servo-press users that buy a second or third press, after gaining experience with their first machine.We see servo-press technology as the wave of the present and the near future, and believe that those who jump on will have a leg up in the metalforming arena. We’re going to make the move. MF
See also: AIDA-America Corporation
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