S7900 Odd Form Insertion Machine for EMS THT Production by Southern Machinery
Manual odd-form through-hole insertion can quietly bottleneck EMS factory output, labor efficiency, and soldering consistency. The Southern Machinery S7900 odd form insertion machine is built for factories that want to a
Jul 7, 2026 · Updated Jul 7, 2026 · Southern Machinery

S7900 Odd Form Insertion Machine for EMS THT Production by Southern Machinery
Manual insertion of odd-form through-hole components is often a quiet bottleneck inside EMS factories. Operators handle connectors, terminals, relays, large capacitors, coils, and other irregular parts one at a time. The work looks simple, but it affects cost, throughput, and quality every shift.
The Southern Machinery S7900 odd form insertion machine helps factories automate this stage of THT production. Instead of relying on manual labor for odd-form insertion, the S7900 provides a structured way to improve repeatability, reduce dependence on operators, and better integrate THT assembly with downstream soldering.
Southern Machinery is a Shenzhen-based manufacturer founded in 2011. We specialize in high-efficiency, cost-effective SMT and THT PCB assembly automation equipment, including SMT lines, THT insertion machines, wave soldering, board handling, inspection options, spare parts support, professional training, and global service for over 237 customers.

What is this machine used for?
The S7900 automatically inserts odd-form through-hole components into PCBs. In typical EMS production, that means parts that can't be placed easily with a standard SMT mounter or a conventional axial/radial insertion machine.
Common examples include non-standard THT components supplied from tape, tube, tray, or bulk feeders. The S7900 is designed for factories that need to solve manual odd-form insertion challenges while maintaining cost, quality, and throughput.
In simple terms: if your operators are manually inserting irregular THT parts before wave or selective soldering, the S7900 is worth evaluating.
The production problem it solves
Manual odd-form insertion creates several common factory problems:
- Labor costs rise as volume grows.
- Output depends heavily on operator speed and training.
- Component positions can shift before soldering.
- Changeover and line balancing become harder.
- Quality control becomes more reactive than preventive.
The source document highlights these as core EMS challenges around cost, quality, and throughput. That's exactly where odd-form insertion automation delivers value—not just by replacing manual work, but by making the upstream THT process more stable before the PCB reaches soldering.
Key S7900 capabilities from the source brief
Based on the selected local source document, the S7900 offers these key capabilities:
- Designed for odd-form THT component insertion.
- Supports a wide range of components from tape, tube, tray, or bulk feeders.
- Vision-assisted placement for quality control.
- Optional lead clinching to keep components stable before soldering.
- Offline programming to reduce changeover pressure.
- Auto-correction features to maintain placement consistency.
- Integrates into existing production lines with installation, training, and worldwide support.
The source brief also lists example performance and business figures: placement accuracy of ±0.06 mm, speed up to 4,700 CPH, replacement of 5-10 manual workers, estimated annual labor savings of $60,000, and ROI in less than 2 years. Treat these as illustrative only. Final results depend on component geometry, PCB design, feeder configuration, working hours, labor costs, soldering process, and acceptance testing.
Typical applications
The S7900 suits factories where odd-form THT components are part of regular production, not just occasional rework. Typical users include EMS, ODM, automotive electronics, industrial controls, power electronics, and other manufacturers that need higher consistency before soldering.
Common application scenarios include:
- Manual THT insertion stations are limiting line output.
- Operators insert irregular components before wave soldering.
- Component stability before soldering is a quality concern.
- Product mix requires different feeder types.
- The factory wants to reduce labor dependence without losing flexibility.
- Existing SMT/THT lines need a stronger automation link between placement and soldering.

How it fits into a complete PCB assembly line
For most buyers, the S7900 shouldn't be seen as an isolated machine. It works best when the entire process is reviewed—from SMT placement through THT soldering and inspection.
A practical line structure might look like this:
- SMT section: loader, stencil printer, SPI if needed, pick-and-place, reflow oven, AOI.
- THT preparation: buffer, barcode scan if required, manual assist or automatic insertion depending on part type.
- Odd-form insertion: S7900 for non-standard through-hole components using suitable feeders.
- Soldering: wave or selective soldering, depending on PCB design and component layout.
- Inspection and test: THT AOI, visual inspection, ICT/FCT, and data collection as needed.
- Board handling: conveyors, buffers, loaders, unloaders, PCB inverters, and NG/OK sorting if required.
Southern Machinery can pair the S7900 with board handling, wave soldering, selective soldering, inspection, and other SMT/THT equipment so the line works as a complete production system.
Key selection parameters before buying
Before finalizing an S7900 configuration, engineering and purchasing teams should confirm these details:
- PCB size range, panelization, thickness, and board support method.
- Component list for all odd-form THT parts.
- Feeding method required for each component: tape, tube, tray, or bulk.
- Component body size, pin shape, lead pitch, polarity, and insertion force.
- Required placement accuracy and acceptable defect level.
- Whether lead clinching is needed before soldering.
- Target output per shift and working hours per day.
- Changeover frequency and offline programming requirements.
- Existing soldering process: wave or selective soldering.
- Need for barcode scanning, traceability, or MES connection.
This is where technical review matters. A low-cost machine choice can become expensive if the feeder concept, PCB support, or downstream soldering process isn't checked early.
ROI, quality, and capacity value
The strongest business case for the S7900 isn't any single number—it's the combined effect of labor reduction, fewer manual variations, faster line balancing, and more predictable output.
The source document gives an example where one S7900 could replace 5-10 manual workers, save an estimated $60,000 annually in labor costs, and deliver ROI in less than 2 years. Treat this as an example scenario, not a fixed guarantee. Real ROI should be calculated from your labor costs, product mix, number of shifts, feeder configuration, utilization, and final cycle time.
For quality, the source brief highlights ±0.06 mm placement accuracy, AI-powered vision, auto-correction, and optional lead clinching. In practice, these features help keep components stable and correctly positioned before soldering, reducing rework and making downstream inspection more predictable.
For capacity, the source brief lists speeds up to 4,700 CPH. Final usable output depends on component mix, feeder layout, PCB handling time, inspection requirements, and changeover frequency.

Why Southern Machinery
Southern Machinery builds complete PCB assembly automation solutions, not just standalone machines. For an S7900 project, we can review how the odd-form insertion station connects with your SMT line, manual THT work, wave soldering, selective soldering, conveyors, buffers, inspection, and training plan.
That matters because odd-form insertion is rarely a one-machine decision. The feeder method, component stability, board handling, and soldering process all affect the final result.
Our role is to help buyers choose a cost-effective configuration that solves the real bottleneck without overbuilding the line.
FAQ
1. Is the S7900 only for one type of component?
No. The source brief describes the S7900 as suitable for a wide range of components supplied from tape, tube, tray, or bulk feeders. The final feasibility depends on the actual component drawing, packaging, pin design, and feeder method.
2. Can it replace manual odd-form insertion completely?
It can reduce or replace manual insertion for suitable components, but this should be confirmed part by part. Some unusual parts may still need manual assist or a custom feeder/nozzle solution.
3. Should I use wave soldering or selective soldering after insertion?
That depends on PCB layout, component thermal sensitivity, soldering keep-out areas, and production mix. Southern Machinery can configure the S7900 with either wave or selective soldering as part of a complete THT line review.
4. Are the ROI and labor-saving numbers guaranteed?
No. The source document gives example values: 5-10 workers replaced, estimated $60,000 annual labor saving, ROI in less than 2 years. These must be recalculated for your factory conditions and confirmed during technical evaluation.
5. What information is needed for a quotation?
Please prepare: PCB size, product type, monthly or shift output, odd-form component photos/drawings, packaging method, soldering process, current manual insertion headcount, and target automation level.
6. Can the S7900 connect with an existing production line?
Yes, the source brief states it can integrate into existing lines. Actual layout depends on board handling direction, conveyor height, upstream/downstream equipment, and traceability requirements.
CTA: send your component list for a technical review
If manual odd-form THT insertion is becoming your bottleneck, send Southern Machinery your PCB size, component photos, feeder packaging, and target output. We can review whether the S7900 odd form insertion machine is the right fit and suggest a complete SMT/THT line configuration with board handling, soldering, inspection, training, and spare parts support.
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