| From Manual Work to Stable Fastening
A driver locking screw robot helps factories replace slow hand screw tightening with a more controlled fastening process. The machine is built with two main parts: an electric screwdriver and an automatic screw feeder. The feeder prepares each screw, and the driver completes the locking action at the set position. Once one screw is finished, the next screw is delivered for the next cycle. This structure is useful for electronic products with repeated screw points, fixed screw sizes, and batch assembly needs. It can be used for PCBA modules, LED parts, control boxes, housings, and other product assembly stations.
| Feature of Automatic Screwing Robot
Easy Programming
In many assembly areas, the real problem is not only screw tightening. The delay often comes from picking screws, placing them correctly, and repeating the same movement hundreds of times. This driver locking screw robot reduces those small delays by linking screw feeding and locking in one workflow. A Customer looking for an SMT Automatic driver locking screw robot machine Multi-axis turntable type usually wants a faster, cleaner, and easier station. I.C.T studies the product structure first, then recommends the feeding method, fixture style, and working range based on actual production.
For products with fixed hole patterns, each screw point must be reached with the same path again and again. The machine uses X, Y, and Z-axis movement to guide the driver across the working area. Repeat accuracy can reach ±0.02 mm, which helps keep fastening positions consistent during batch work. This is important for lighting products, plastic shells, electronic modules, and small control assemblies. Compared with a fully manual process, the driver locking screw robot makes the screw path easier to manage and reduces variation caused by operator fatigue or hand movement.
A good locking result depends heavily on product support. If the part shakes or tilts during fastening, the screw may not enter smoothly. I.C.T can design the fixture around the Customer’s real product, including screw position, loading direction, product edge support, and operator handling method. For a locking screw robot multi-axis turntable type project, the fixture layout and station rhythm must match the product flow. Whether the Customer needs one platform, two platforms, or a special support structure, the goal is to make loading simple and fastening repeatable.
The control method is designed for factory operators, not only engineers. Operators can use the touch panel and handheld programmer to teach screw points, save programs, and switch product models when needed. The system supports up to 999 programs, which is helpful for factories making different products in small or medium batches. Alarm support helps teams notice abnormal conditions such as stripped screws. For a robotic screw driver or screw robot multi-axis turntable type screwing process, simple operation matters because it reduces training time and helps the station run with fewer interruptions.
| Automatic Screwing Robot Specification
| Item | I.C.T-SCR300 | I.C.T-SCR540 | I.C.T-SCR640 |
|---|---|---|---|
| Max. Range Size | 300 × 300 mm, Z: 80 mm | 500 × 400 mm, Z: 80 mm | 600 × 400 mm, Z: 80 mm |
| Head Number | 1 | 1 | 2 |
| Platform Number | 1 | 2 | 2 |
| Max Move Speed | X/Y axis: 600 mm/s, Z axis: 400 mm/s | X/Y axis: 600 mm/s, Z axis: 400 mm/s | X/Y axis: 600 mm/s, Z axis: 400 mm/s |
| Screwdriver | SD / KILEWS / HIOS | SD / KILEWS / HIOS | SD / KILEWS / HIOS |
| Screw Feeding | Pick and Place, Magnetic | Pick and Place, Magnetic | Pick and Place, Magnetic |
| Alarm System | Stripped Alarm | Stripped Alarm | Stripped Alarm |
| Repeat Accuracy | ±0.02 mm | ±0.02 mm | ±0.02 mm |
| Memory | 999 Programs | 999 Programs | 999 Programs |
| Programming | Traction Teaching Program | Traction Teaching Program | Traction Teaching Program |
| Driving Mode | Closed-loop Motor | Closed-loop Motor | Closed-loop Motor |
| Control Mode | Demonstrator + Touch Panel | Demonstrator + Touch Panel | Demonstrator + Touch Panel |
| Air Pressure | 4.5–6 kg/cm² | 4.5–6 kg/cm² | 4.5–6 kg/cm² |
| Power Supply | AC 220 ±10%, 50/60 Hz; AC 110V optional | AC 220 ±10%, 50/60 Hz; AC 110V optional | AC 220 ±10%, 50/60 Hz; AC 110V optional |
| Dimension | 670 × 540 × 690 mm | 670 × 590 × 690 mm | 1010 × 730 × 690 mm |
| Weight | Approx. 70 kg | Approx. 90 kg | Approx. 130 kg |
* I.C.T keeps working on quality and performance, specifications and appearance may be updated without particular notice.
| DIP Line Equipment List
A full DIP line supports through-hole component assembly after SMT production. It can include manual insertion conveyors, automatic insertion machines, wave soldering machines, selective soldering machines, DIP AOI, PCB loaders, unloaders, cooling conveyors, soldering robots, and other handling systems. These machines are arranged to complete insertion, soldering, inspection, board transfer, and process control. I.C.T plans DIP lines according to PCB size, component type, output demand, operator arrangement, and available factory space. A clear DIP layout helps reduce unnecessary handling, keeps each process connected, and makes daily production easier to manage.
| Product Name | Purpose in DIP Line |
|---|---|
| Automatic Insert Machine | Automatically places components onto PCBs with precision for DIP production line. |
Melts solder to form solid joints on PCBs during THT plug-in process. | |
Applies solder selectively to specific areas for accurate THT assembly | |
Inspects solder joints and placement defects on DIP assembled PCB. | |
Board input machine and board output machine | |
| DIP Peripheral | Peripheral products of DIP production line |
| Customer Success Video
In April 2026, an I.C.T engineer went to Portugal for on-site installation and training of a full SMT production line used in automotive electronics. The Customer’s products included car lighting and control system PCBAs, so the team needed stable setup, careful adjustment, and clear training before production started. Our engineer supported equipment positioning, line connection, machine testing, operation explanation, and early production guidance. The Customer shared positive feedback after the service, saying the installation process was smooth and the training was easy to understand. This project shows how I.C.T supports Customers in real factory conditions, from machine arrival to production startup.
| Professional Training & Support
I.C.T starts support before the machine is built. Our team can review the Customer’s product drawing, sample, screw size, station layout, production target, and operator workflow. Based on this information, we help confirm machine structure, fixture design, feeding method, and factory connection needs. After delivery, I.C.T engineers can provide on-site installation and training when required. Training covers startup, teaching program setup, fixture loading, screw feeding check, alarm handling, daily cleaning, and basic troubleshooting. For a driver locking screw robot or a complete production line, our focus is practical: help the Customer’s team use the equipment correctly in daily production.
| Customer Praise
Customers often mention that I.C.T engineers are patient, practical, and clear during installation. They also give good feedback on machine stability, packing quality, and fast response after delivery. For overseas shipment, I.C.T uses moisture protection, shock protection, wooden packaging, and firm machine fixing to reduce transport risk. When Customers have questions after training, our team supports them through messages, video calls, and remote guidance. This response helps solve small issues early and keeps production from being delayed. In factory work, fast answers are not decoration; they are the real safety net.
| Our Certification
I.C.T supports production line projects with CE, RoHS, ISO9001, and related patents, depending on machine type and project scope. These certificates show our attention to safety, environmental requirements, quality management, and technical improvement. Besides documents, I.C.T also follows inspection steps before shipment. Machines are checked through mechanical assembly review, electrical inspection, function testing, and packing confirmation. For Customers buying an SMT screw machine, DIP equipment, or a wider factory solution, this process helps reduce installation risk and supports more stable long-term use in electronics manufacturing.
| About Us and Factory
I.C.T is a manufacturer and full factory solution provider for electronics manufacturing. We have our own R&D, production, engineering, sales, and service teams, and we have grown through many overseas projects. I.C.T serves Customers in automotive electronics, LED products, consumer electronics, communication devices, industrial control, power electronics, and other industries. Our factory follows strict production and testing procedures from design to shipment. Each project is handled with practical machine selection, process discussion, quality inspection, and long-term technical support. I.C.T helps Customers build production capacity step by step, with equipment and service that fit real factory needs.