Product-Related FAQs

Q1: What Is The Typical Minimum Order Quantity (MOQ) For Industrial Robots? A：There is no universal MOQ standard for industrial robots. The minimum order quantity typically depends on the product type, level of customization, and the supplier’s production model.In most cases:Standard industrial robots (such as 6-axis or 4-axis handling and palletizing robots) are available with an MOQ of one unit;Customized industrial robots usually support one-unit orders for common application-level customization, while complex integrated systems may require project evaluation;Robot accessories and spare parts are often available with a one-piece MOQ.Today, one-unit MOQ has become common practice across the industry. Q2: What Is The MOQ For RBTC Industrial Robots? A:RBTC supports a one-unit MOQ for industrial robots and related accessories.This policy applies to:Standard industrial robot models;Application-specific customized industrial robots;End-of-arm tooling, protective components, and common spare parts.This approach is well suited for single-station automation upgrades, small-scale production improvements, and equipment replacement scenarios. Q3: Why Does The MOQ Vary Among Industrial Robot Manufacturers? A :Differences in MOQ are mainly influenced by:Manufacturing and cost structure.Product and system complexity.Target customer segments.Inventory and supply chain strategies.MOQ reflects a supplier’s delivery model rather than robot performance or quality. Q4: Does order quantity affect MOQ or pricing for industrial robots? A：Order quantity generally does not change the MOQ, but it may affect pricing and delivery conditions.Common benefits of larger orders include:More competitive unit pricing.More stable production scheduling.Potential access to additional technical or service support. Q5: Does a one-unit order result in a longer delivery time?Q2: What Is The MOQ For RBTC Industrial Robots? A:Not necessarily. Delivery time depends mainly on product availability and customization complexity, not order quantity.Standard models: delivery time is similar for single-unit and bulk orders.Customized robots: lead time is driven by engineering and testing requirements. Q6:What are the advantages of a one-unit MOQ for small and medium-sized manufacturers? A :For small and medium-sized manufacturers, a one-unit MOQ offers key advantages:Lower initial investment.Ability to validate performance before scaling.Greater flexibility for low-volume, high-mix production environments.

Q1: What Types Of Industrial Robots Does RBTC Provide? A:RBTC provides a range of industrial robots designed to support different industries and manufacturing processes.The main product types include:6-axis industrial robots for welding, assembly, complex handling, and multi-angle operations.4-axis industrial robots commonly used for high-speed handling and palletizing.SCARA robots for high-speed and high-precision planar assembly.Collaborative robots and palletizing cobots for space-limited or human–robot collaboration scenarios.Injection molding servo robots (IMM robots) for part removal and automated loading/unloading in injection molding processes.In addition to standard models, RBTC supports application-based configuration and system adaptation to match specific production requirements. Q2: What Industrial Robot Solutions Does RBTC Offer? A:RBTC offers application-focused automation solutions built around industrial robots, covering a wide range of manufacturing scenarios.Typical solutions include:Industrial robot applications for material handling, welding, palletizing, assembly, and machine tending;Application-specific robot solutions for injection molding, metal processing, and automated loading/unloading;End-of-arm tooling (EOAT) and auxiliary components such as grippers, fixtures, and protective accessories;Industrial robot system integration, including equipment coordination, installation, commissioning, and process optimization.The focus is on aligning industrial robots with real production workflows rather than deploying one-size-fits-all systems. Q3: Do RBTC Industrial Robots Support Small-Quantity Orders And After-Sales Service? A:RBTC industrial robots generally support single-unit or small-quantity orders, making them suitable for pilot projects, equipment upgrades, or partial automation of production lines.For after-sales support, RBTC provides technical assistance and spare parts support, and can offer on-site commissioning and operator training based on project requirements to ensure stable operation. Q4: How Can I Determine Which RBTC Industrial Robot Fits My Application?A:Selecting the right industrial robot typically requires evaluating several key factors:Task complexity: multi-axis and complex motions usually require 6-axis robots, while high-speed planar tasks suit SCARA robots.Space and safety requirements: collaborative robots are suitable for space-constrained or human–robot collaboration environments.Process type: injection molding often uses dedicated IMM robots, while welding and assembly commonly rely on 6-axis robots.Final selection should consider part characteristics, cycle time requirements, and factory conditions.

Q: Do industrial robots require complex programming? A: In most practical applications, no. Modern industrial robots are designed to be intuitive and user-friendly, and daily operation does not require advanced programming knowledge.In typical projects implemented by RBTC, robot systems are delivered with pre-configured programs and clear operating interfaces. Operators mainly perform routine tasks such as selecting programs, adjusting basic parameters, or restarting production—similar to operating standard industrial equipment.Complex programming is usually only needed during the initial integration stage, such as process design, motion path setup, or system commissioning. These tasks are handled by experienced automation engineers. After installation and training, the production team can use the system smoothly without writing code.For most manufacturers, the focus is on operating efficiency rather than programming complexity, and industrial robots today are built to support that reality.