Pautas para obtener un presupuesto rápido y exacto de su proveedor de moldeo por inyección

Complete Reference Guide

Moldeo por inyección
& Mold Making

Everything your molder needs to deliver an accurate quote. Prepare your details in advance and move faster.

Section 01

Información esencial requerida

📐

Archivos CAD 3D

-Preferiblemente archivos STEP

-Formato del modelo sólido

-Geometría completa

🧪

Especificaciones materiales

-Tipo de resina (ABS, PP, PC, etc.)

-Grado específico si se conoce

-Aditivos y colorantes

📏

Dimensions & Tolerances

-Dimensiones totales de la pieza

-Tolerancias críticas

-2D drawings with GD&T

📦

Volumen de producción

-Consumo anual estimado

-Cantidad de pedido inicial

-Volumen proyectado para toda la vida

⚙️

Detalles de la solicitud

-Aplicación final

-Requisitos de rendimiento

-Condiciones medioambientales

🎨

Requisitos cosméticos

-Especificaciones del acabado superficial

-Preferencias de ubicación de las puertas

-Requisitos estéticos

Section 02

Mold-Only vs Full Service

#	Requirement	Mold Building Only	Mold Building & Injection Molding
1	Cavity count
2	Plastic resin		Resin + weight (unless 3D model provided)
3	Mold steel & hardness
4	Molding quantity
5	Surface & gate requirements	Mold finish + gate location	Color, finish, gate & more
6	Hot runner drops
7	Critical sizes & assembly
8	Packaging
9	Secondary operations		Paint, print, assembly, etc.

Section 03

Accepted File Formats

Los más preferidos

.STP.STEP

Geometría sólida fiable

También aceptable

.X_T.IGS.PRT.SLDPRT.DWG

Native CAD & Parasolid

Sólo referencia

.STL.PDF

2D drawings for reference only

Runner System Options

Hot Runner

High Volume Production

Shorter cycle times, no runner waste, lower per-part cost at scale. Recommended for volumes over 50,000 parts.

Cold Runner

Lower Volume & Tooling Cost

Lower upfront mold cost, simpler tooling. Best for smaller volumes where runner waste is acceptable.

Section 04

Especificaciones de la máquina necesarias

🔩

Fuerza de sujeción

-Requisitos de tonelaje

-Poder de retención del molde

💉

Tamaño del disparo

-Capacidad de volumen de inyección

-Volumen de la pieza y del sistema de rodadura

📐

Espacio para moldes

-Distancia entre tirantes

-Límites de altura del molde

-Apertura máxima de la luz diurna

Section 05

Servicios adicionales

🔬

Análisis DFM

Design optimization for manufacturability and cost reduction before tooling begins.

💻

Diseño de piezas

Complete 3D CAD model creation from concepts, sketches, or physical samples.

🖨️

Impresión 3D

SLA, SLS, and FDM prototyping for rapid design validation before committing to tooling.

🔧

Prototipos CNC

Production-intent material prototypes for robust functional and fit testing.

🏗️

Herramientas blandas

Aluminum or P20 steel molds for low-volume production and bridge tooling.

📦

Vacuum Casting

Silicone mold casting for small pre-production runs with good surface quality.

Section 06

Project Timeline

Diseño de componentes~7 Days

Optimize design for cost savings and manufacturability.

Parts Prototyping2–3 Days

CNC machined prototypes or 3D printing for design validation.

Diseño de herramientas3–7 Days

Tooling Information Worksheet used to design the mold tool accurately.

Comprobación del diseño de la herramienta2–3 Days

Validation of tool design accuracy before fabrication begins.

Fabricación de herramientas3–8 Weeks

Precise fabrication using CNC and EDM machining.

Primeros disparos al cliente (T1)2–5 Days

First test shots sent via courier after molds are completed.

Tool Modifications & Texturing3–7 Days

Changes for compliance and texturing — final step before mass production.

Mass Production / Tool ExportListo

Ready for full-scale production runs or tool export.

Design to First Shots

5–10 Weeks

Approximate total for typical projects

Complete Project

6–12 Weeks

Including modifications and approval cycles

Section 07

Calendario de citas

Simple Parts — Complete Information

24 to 72 hours when all required details are provided upfront, including 3D files, material, quantity, and tolerances.

Complex Parts — Analysis Required

3 to 10 business days for parts with undercuts, complex geometry, tight tolerances, or multi-cavity requirements.

Section 08

Consejos para simplificar el proceso de compra de moldes

Detailed RFQs Get Accurate Quotes

Submit an RFQ that leaves no room for guessing. Include mold type, cavity count, steel preference, expected mold life, and warranty expectations.

Be Transparent in Your Request

Be clear about the reason for quoting. Don’t ask for a full engineering analysis for a project years down the road.

Respect Intellectual Property

Be discreet when requesting quotes. Do not share ideas from competing mold makers.

Partner with Your Moldmaker Early

Discuss costs and timelines before you’re locked into a design. Effective early collaboration avoids costly revisions.

Keep Communication Ongoing

Ask for regular updates. Many mold makers use Gantt charts or project portals to keep clients informed.

Agree on Payment Terms

Plan for down payments and milestone-based payments, with final payment on approved samples and mold shipment.

Minimize Design Changes

Part design changes after tooling begins delay lead times and increase cost significantly.

Define Completion Criteria

A mold is complete when it produces parts meeting print specifications. All changes after approval require ECOs.

Beware of Unrealistic Deals

If an offer seems too good to be true, it usually is. Mold quality directly affects part quality for millions of cycles.

Ready to start your project? Póngase en contacto con nosotros with your requirements for a detailed quote.