Deep Drawing Press Price Guide & Quotation
Deep Drawing Press Price Guide & Quotation | Cost Factors Explained
The price of a deep drawing press varies widely, typically ranging from a few thousand dollars for smaller, used or lower-tonnage machines to several hundred thousand or even millions of dollars for large, custom-built industrial systems. The cost is primarily determined by tonnage, customization, brand, and features.
Get a clear understanding of deep drawing press costs. Our guide breaks down price factors, tonnage ranges, and how to request an accurate quotation for your needs.
Why is Deep Drawing Pricing So Complex?
Deep drawing is a transformative process, not a simple cut-and-assemble operation. The cost is not just for the material you get, but for the engineering, tooling, and precision force required to create your specific part. Think of it as an investment in a custom-made solution rather than a commodity purchase.
Key Factors That Determine Your Deep Drawing Quotation
1. Tooling and Setup Costs (The Initial Investment)
This is the most significant upfront cost, especially for low to medium volume production runs.
● Die Design & Engineering
The complexity of designing the multi-stage dies and punches.
● Die Material & Manufacturing
High-grade, hardened tool steel is expensive to machine and heat-treat. More complex parts require more intricate and costly dies.
● Number of Draw Stations
A simple cup might need one draw. A complex, multi-diameter part may require 3, 4, or more progressive draw stations, each adding to the tooling cost.
● Prototyping &Stampling
Cost for producing and validating initial samples before full production.
Pricing Insight: Tooling is a one-time, non-recurring engineering(NRE) cost. For large production volumes, this cost is amortized over many units, making the per-part price lower.
2. Part Design & Geometry
The shape of your part is the primary driver of the recurring (per-part) cost.
● Part Size & Depth: Larger and deeper parts require larger, more powerful presses and more material.
● Diameter-to-Depth Ratio: A very deep, narrow part (a high ratio) is more challenging and may require additional draw steps and anneals.
● Complexity: Features like stepped diameters, flanges, embossing, side walls, and reverse draws add complexity and cost.
● Tolerances: Tighter tolerances (e.g., ±0.001" instead of ±0.010") require more precise (and expensive) tooling, more process control, and higher scrap rates.
● Surface Finish Requirements: A standard mill finish is included. A mirror polish or specific texture will add cost.
3. Material Selection
The type and grade of metal directly impact the cost.
● Material Cost: The raw cost per pound of the metal coil or blank.
● Formability: Some materials are easier to draw than others. For example, aluminum and low-carbon steels are generally more formable and cost-effective than stainless steels or copper alloys.
● Thickness (Gauge): Thicker material requires more force to draw, consuming more press energy and potentially requiring more robust (and expensive) tooling.
● Special Coatings or Finishes: Pre-plated or coated metals (e.g., galvanized, nickel-plated) are more expensive.
4. Production Volume
Volume has a massive impact on the price structure.
● Low Volume (Prototypes, 100 - 1,000 parts): The price is dominated by the amortized tooling cost. The per-part price is high.
● Medium Volume (1,000 - 100,000 parts): A balance between tooling amortization and material/labor costs. The most common scenario for optimized pricing.
● High Volume (100,000+ parts): Tooling cost becomes a small factor. The price is driven by raw material efficiency, press speed, labor, and scrap rate. Even small optimizations here lead to significant savings.
5. Secondary Operations
Most deep drawn parts require additional work after the initial draw.
● Trimming: Cutting off the uneven top edge (flange).
● Piercing/Hole Punching: Adding holes in the side or bottom.
● Threading/Tapping: Creating screw threads.
● Bottom Stamping/Embossing: Adding logos or part numbers.
● Annealing: Heat-treating the part between draws to relieve stress and prevent cracking (for very deep parts). ● Cleaning, Deburring, and Finishing: Plating, painting, powder coating, or passivation.
Each secondary operation adds its own tooling and per-part cost.
Sample Price Ranges (For Reference Only)
Disclaimer: These are very general estimates. Your actual quote will vary significantly. Always consult with your manufacturer.
The Quotation Process: What to Expect
1. Submit Your RFQ (Request for Quotation)
Provide the manufacturer with:
● Detailed Drawings: Preferably with GD&T.
● Material Specification: Type, grade, and temper.
● Annual/Project Volume: Be as accurate as possible.
● Application: This helps the engineer suggest potential optimizations.
2. Manufacturer's Review & DFM (Design for Manufacturability): A reputable manufacturer will analyze your part for producibility and may suggest cost-saving changes (e.g., slightly relaxing a tolerance, adding a radius, or changing material).
3. You Receive Your Quote: A professional quote should clearly break down:
● Non-Recurring Engineering (NRE) / Tooling Cost: A one-time fee.
● Price per Part: At your specified volumes.
● Lead Times: For tooling and initial production.
● Assumptions: Material type, secondary operations included, etc.
How to Reduce Your Deep Drawing Costs
● Design for Manufacturability (DFM): Involve your deep draw supplier early in the design process.
● Simplify Geometry: Use uniform wall thicknesses, generous radii, and avoid unnecessary complexity.
● Specify Realistic Tolerances: Only call out tight tolerances where absolutely critical for function.
● Optimize Material Selection: Choose the most formable and cost-effective material that meets your performance needs.
● Consider Volume: Be realistic about your volume to get the most accurate pricing model.
Ready for an Accurate Quote about Deep Drawing Press?
Understanding these factors will help you interpret your quotations and collaborate effectively with your manufacturing partner. The most accurate price comes from a direct conversation about your specific project. To get a formal quotation, please provide us with your part prints, material specs, and target volumes.
GOODSJACK HYDRAULIC MACHINERY CO., LTD
DELISHI MACHINERY TECHNOLOGY CO., LTD
Hydraulic Press Machine, Hydraulic Forging Press Manufacturer
Web: www.hydraulic-press-machine.com
www.goodsjack.com
Tel: +86-769-88057683 83223615
Fax: +86-769-83231691
Dongguan Factory
General Factory : No3, Jinfu Road, Jinma Industrial Park, Liaobu Town, Dongguan, Guangdong, China
Branch Factory: No210 Heshi Road, Qiaotou Town, Dongguan, Guangdong, China
Hubei Factory
Address: Sanhua Industrial Park, Binjiang New Area, Huangshi, Hubei, China
Eva Lee Sales Manager
Email: sales@goodsjack.com
WhatsApp/Wechat:+ 86 13509801050
Alice Xu Sales Manager
Skype: alice.goodsjack
Email: sales1@goodsjack.com
WhatsApp/Wechat: +86 13642957273
The price of a deep drawing press varies widely, typically ranging from a few thousand dollars for smaller, used or lower-tonnage machines to several hundred thousand or even millions of dollars for large, custom-built industrial systems. The cost is primarily determined by tonnage, customization, brand, and features.
Get a clear understanding of deep drawing press costs. Our guide breaks down price factors, tonnage ranges, and how to request an accurate quotation for your needs.
Why is Deep Drawing Pricing So Complex?
Deep drawing is a transformative process, not a simple cut-and-assemble operation. The cost is not just for the material you get, but for the engineering, tooling, and precision force required to create your specific part. Think of it as an investment in a custom-made solution rather than a commodity purchase.
1. Tooling and Setup Costs (The Initial Investment)
This is the most significant upfront cost, especially for low to medium volume production runs.
● Die Design & Engineering
The complexity of designing the multi-stage dies and punches.
● Die Material & Manufacturing
High-grade, hardened tool steel is expensive to machine and heat-treat. More complex parts require more intricate and costly dies.
● Number of Draw Stations
A simple cup might need one draw. A complex, multi-diameter part may require 3, 4, or more progressive draw stations, each adding to the tooling cost.
● Prototyping &Stampling
Cost for producing and validating initial samples before full production.
Pricing Insight: Tooling is a one-time, non-recurring engineering(NRE) cost. For large production volumes, this cost is amortized over many units, making the per-part price lower.
2. Part Design & Geometry
The shape of your part is the primary driver of the recurring (per-part) cost.
● Part Size & Depth: Larger and deeper parts require larger, more powerful presses and more material.
● Diameter-to-Depth Ratio: A very deep, narrow part (a high ratio) is more challenging and may require additional draw steps and anneals.
● Complexity: Features like stepped diameters, flanges, embossing, side walls, and reverse draws add complexity and cost.
● Tolerances: Tighter tolerances (e.g., ±0.001" instead of ±0.010") require more precise (and expensive) tooling, more process control, and higher scrap rates.
● Surface Finish Requirements: A standard mill finish is included. A mirror polish or specific texture will add cost.
3. Material Selection
The type and grade of metal directly impact the cost.
● Material Cost: The raw cost per pound of the metal coil or blank.
● Formability: Some materials are easier to draw than others. For example, aluminum and low-carbon steels are generally more formable and cost-effective than stainless steels or copper alloys.
● Thickness (Gauge): Thicker material requires more force to draw, consuming more press energy and potentially requiring more robust (and expensive) tooling.
● Special Coatings or Finishes: Pre-plated or coated metals (e.g., galvanized, nickel-plated) are more expensive.
4. Production Volume
Volume has a massive impact on the price structure.
● Low Volume (Prototypes, 100 - 1,000 parts): The price is dominated by the amortized tooling cost. The per-part price is high.
● Medium Volume (1,000 - 100,000 parts): A balance between tooling amortization and material/labor costs. The most common scenario for optimized pricing.
● High Volume (100,000+ parts): Tooling cost becomes a small factor. The price is driven by raw material efficiency, press speed, labor, and scrap rate. Even small optimizations here lead to significant savings.
5. Secondary Operations
Most deep drawn parts require additional work after the initial draw.
● Trimming: Cutting off the uneven top edge (flange).
● Piercing/Hole Punching: Adding holes in the side or bottom.
● Threading/Tapping: Creating screw threads.
● Bottom Stamping/Embossing: Adding logos or part numbers.
● Annealing: Heat-treating the part between draws to relieve stress and prevent cracking (for very deep parts). ● Cleaning, Deburring, and Finishing: Plating, painting, powder coating, or passivation.
Each secondary operation adds its own tooling and per-part cost.
Sample Price Ranges (For Reference Only)
Disclaimer: These are very general estimates. Your actual quote will vary significantly. Always consult with your manufacturer.
1. Submit Your RFQ (Request for Quotation)
Provide the manufacturer with:
● Detailed Drawings: Preferably with GD&T.
● Material Specification: Type, grade, and temper.
● Annual/Project Volume: Be as accurate as possible.
● Application: This helps the engineer suggest potential optimizations.
2. Manufacturer's Review & DFM (Design for Manufacturability): A reputable manufacturer will analyze your part for producibility and may suggest cost-saving changes (e.g., slightly relaxing a tolerance, adding a radius, or changing material).
3. You Receive Your Quote: A professional quote should clearly break down:
● Non-Recurring Engineering (NRE) / Tooling Cost: A one-time fee.
● Price per Part: At your specified volumes.
● Lead Times: For tooling and initial production.
● Assumptions: Material type, secondary operations included, etc.
How to Reduce Your Deep Drawing Costs
● Design for Manufacturability (DFM): Involve your deep draw supplier early in the design process.
● Simplify Geometry: Use uniform wall thicknesses, generous radii, and avoid unnecessary complexity.
● Specify Realistic Tolerances: Only call out tight tolerances where absolutely critical for function.
● Optimize Material Selection: Choose the most formable and cost-effective material that meets your performance needs.
● Consider Volume: Be realistic about your volume to get the most accurate pricing model.
Ready for an Accurate Quote about Deep Drawing Press?
Understanding these factors will help you interpret your quotations and collaborate effectively with your manufacturing partner. The most accurate price comes from a direct conversation about your specific project. To get a formal quotation, please provide us with your part prints, material specs, and target volumes.
GOODSJACK HYDRAULIC MACHINERY CO., LTD
DELISHI MACHINERY TECHNOLOGY CO., LTD
Hydraulic Press Machine, Hydraulic Forging Press Manufacturer
Web: www.hydraulic-press-machine.com
www.goodsjack.com
Tel: +86-769-88057683 83223615
Fax: +86-769-83231691
Dongguan Factory
General Factory : No3, Jinfu Road, Jinma Industrial Park, Liaobu Town, Dongguan, Guangdong, China
Branch Factory: No210 Heshi Road, Qiaotou Town, Dongguan, Guangdong, China
Hubei Factory
Address: Sanhua Industrial Park, Binjiang New Area, Huangshi, Hubei, China
Eva Lee Sales Manager
Email: sales@goodsjack.com
WhatsApp/Wechat:+ 86 13509801050
Alice Xu Sales Manager
Skype: alice.goodsjack
Email: sales1@goodsjack.com
WhatsApp/Wechat: +86 13642957273
评论
发表评论